test/CodeGen/WebAssembly/multivalue-stackify.py - llvm-project/llvm - Git at Google

 #!/usr/bin/env python3

 """A test case generator for register stackification.

 This script exhaustively generates small linear SSA programs, then filters them
 based on heuristics designed to keep interesting multivalue test cases and
 prints them as LLVM IR functions in a FileCheck test file.

 The output of this script is meant to be used in conjunction with
 update_llc_test_checks.py.

   ```
   ./multivalue-stackify.py > multivalue-stackify.ll
   ../../../utils/update_llc_test_checks.py multivalue-stackify.ll
   ```

 Programs are represented internally as lists of operations, where each operation
 is a pair of tuples, the first of which specifies the operation's uses and the
 second of which specifies its defs.

 TODO: Before embarking on a rewrite of the register stackifier, an abstract
 interpreter should be written to automatically check that the test assertions
 generated by update_llc_test_checks.py have the same semantics as the functions
 generated by this script. Once that is done, exhaustive testing can be done by
 making `is_interesting` return True.
 """


 from itertools import product
 from collections import deque


 MAX_PROGRAM_OPS = 4
 MAX_PROGRAM_DEFS = 3
 MAX_OP_USES = 2


 def get_num_defs(program):
   num_defs = 0
   for _, defs in program:
     num_defs += len(defs)
   return num_defs


 def possible_ops(program):
   program_defs = get_num_defs(program)
   for num_defs in range(MAX_PROGRAM_DEFS - program_defs + 1):
     for num_uses in range(MAX_OP_USES + 1):
       if num_defs == 0 and num_uses == 0:
         continue
       for uses in product(range(program_defs), repeat=num_uses):
         yield uses, tuple(program_defs + i for i in range(num_defs))


 def generate_programs():
   queue = deque()
   queue.append([])
   program_id = 0
   while True:
     program = queue.popleft()
     if len(program) == MAX_PROGRAM_OPS:
       break
     for op in possible_ops(program):
       program_id += 1
       new_program = program + [op]
       queue.append(new_program)
       yield program_id, new_program


 def get_num_terminal_ops(program):
   num_terminal_ops = 0
   for _, defs in program:
     if len(defs) == 0:
       num_terminal_ops += 1
   return num_terminal_ops


 def get_max_uses(program):
   num_uses = [0] * MAX_PROGRAM_DEFS
   for uses, _ in program:
     for u in uses:
       num_uses[u] += 1
   return max(num_uses)


 def has_unused_op(program):
   used = [False] * MAX_PROGRAM_DEFS
   for uses, defs in program[::-1]:
     if defs and all(not used[d] for d in defs):
       return True
     for u in uses:
       used[u] = True
   return False


 def has_multivalue_use(program):
   is_multi = [False] * MAX_PROGRAM_DEFS
   for uses, defs in program:
     if any(is_multi[u] for u in uses):
       return True
     if len(defs) >= 2:
       for d in defs:
         is_multi[d] = True
   return False


 def has_mvp_use(program):
   is_mvp = [False] * MAX_PROGRAM_DEFS
   for uses, defs in program:
     if uses and all(is_mvp[u] for u in uses):
       return True
     if len(defs) <= 1:
       if any(is_mvp[u] for u in uses):
         return True
       for d in defs:
         is_mvp[d] = True
   return False


 def is_interesting(program):
   # Allow only multivalue single-op programs
   if len(program) == 1:
     return len(program[0][1]) > 1

   # Reject programs where the last two instructions are identical
   if len(program) >= 2 and program[-1][0] == program[-2][0]:
     return False

   # Reject programs with too many ops that don't produce values
   if get_num_terminal_ops(program) > 2:
     return False

   # The third use of a value is no more interesting than the second
   if get_max_uses(program) >= 3:
     return False

   # Reject nontrivial programs that have unused instructions
   if has_unused_op(program):
     return False

   # Reject programs that have boring MVP uses of MVP defs
   if has_mvp_use(program):
     return False

   # Otherwise if it has multivalue usage it is interesting
   return has_multivalue_use(program)


 def make_llvm_type(num_defs):
   if num_defs == 0:
     return 'void'
   else:
     return '{' + ', '.join(['i32'] * num_defs) + '}'


 def make_llvm_op_name(num_uses, num_defs):
   return f'op_{num_uses}_to_{num_defs}'


 def make_llvm_args(first_use, num_uses):
   return ', '.join([f'i32 %t{first_use + i}' for i in range(num_uses)])


 def print_llvm_program(program, name):
   tmp = 0
   def_data = []
   print(f'define void @{name}() {{')
   for uses, defs in program:
     first_arg = tmp
     # Extract operands
     for use in uses:
       ret_type, var, idx = def_data[use]
       print(f'  %t{tmp} = extractvalue {ret_type} %t{var}, {idx}')
       tmp += 1
     # Print instruction
     assignment = ''
     if len(defs) > 0:
       assignment = f'%t{tmp} = '
       result_var = tmp
       tmp += 1
     ret_type = make_llvm_type(len(defs))
     op_name = make_llvm_op_name(len(uses), len(defs))
     args = make_llvm_args(first_arg, len(uses))
     print(f'  {assignment}call {ret_type} @{op_name}({args})')
     # Update def_data
     for i in range(len(defs)):
       def_data.append((ret_type, result_var, i))
   print('  ret void')
   print('}')


 def print_header():
   print('; NOTE: Test functions have been generated by multivalue-stackify.py.')
   print()
   print('; RUN: llc < %s -verify-machineinstrs -mattr=+multivalue',
         '| FileCheck %s')
   print()
   print('; Test that the multivalue stackification works')
   print()
   print('target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"')
   print('target triple = "wasm32-unknown-unknown"')
   print()
   for num_uses in range(MAX_OP_USES + 1):
     for num_defs in range(MAX_PROGRAM_DEFS + 1):
       if num_uses == 0 and num_defs == 0:
         continue
       ret_type = make_llvm_type(num_defs)
       op_name = make_llvm_op_name(num_uses, num_defs)
       args = make_llvm_args(0, num_uses)
       print(f'declare {ret_type} @{op_name}({args})')
   print()


 if __name__ == '__main__':
   print_header()
   for i, program in generate_programs():
     if is_interesting(program):
       print_llvm_program(program, 'f' + str(i))
       print()
	#!/usr/bin/env python3

	"""A test case generator for register stackification.

	This script exhaustively generates small linear SSA programs, then filters them
	based on heuristics designed to keep interesting multivalue test cases and
	prints them as LLVM IR functions in a FileCheck test file.

	The output of this script is meant to be used in conjunction with
	update_llc_test_checks.py.

	```
	./multivalue-stackify.py > multivalue-stackify.ll
	../../../utils/update_llc_test_checks.py multivalue-stackify.ll
	```

	Programs are represented internally as lists of operations, where each operation
	is a pair of tuples, the first of which specifies the operation's uses and the
	second of which specifies its defs.

	TODO: Before embarking on a rewrite of the register stackifier, an abstract
	interpreter should be written to automatically check that the test assertions
	generated by update_llc_test_checks.py have the same semantics as the functions
	generated by this script. Once that is done, exhaustive testing can be done by
	making `is_interesting` return True.
	"""


	from itertools import product
	from collections import deque


	MAX_PROGRAM_OPS = 4
	MAX_PROGRAM_DEFS = 3
	MAX_OP_USES = 2


	def get_num_defs(program):
	num_defs = 0
	for _, defs in program:
	num_defs += len(defs)
	return num_defs


	def possible_ops(program):
	program_defs = get_num_defs(program)
	for num_defs in range(MAX_PROGRAM_DEFS - program_defs + 1):
	for num_uses in range(MAX_OP_USES + 1):
	if num_defs == 0 and num_uses == 0:
	continue
	for uses in product(range(program_defs), repeat=num_uses):
	yield uses, tuple(program_defs + i for i in range(num_defs))


	def generate_programs():
	queue = deque()
	queue.append([])
	program_id = 0
	while True:
	program = queue.popleft()
	if len(program) == MAX_PROGRAM_OPS:
	break
	for op in possible_ops(program):
	program_id += 1
	new_program = program + [op]
	queue.append(new_program)
	yield program_id, new_program


	def get_num_terminal_ops(program):
	num_terminal_ops = 0
	for _, defs in program:
	if len(defs) == 0:
	num_terminal_ops += 1
	return num_terminal_ops


	def get_max_uses(program):
	num_uses = [0] * MAX_PROGRAM_DEFS
	for uses, _ in program:
	for u in uses:
	num_uses[u] += 1
	return max(num_uses)


	def has_unused_op(program):
	used = [False] * MAX_PROGRAM_DEFS
	for uses, defs in program[::-1]:
	if defs and all(not used[d] for d in defs):
	return True
	for u in uses:
	used[u] = True
	return False


	def has_multivalue_use(program):
	is_multi = [False] * MAX_PROGRAM_DEFS
	for uses, defs in program:
	if any(is_multi[u] for u in uses):
	return True
	if len(defs) >= 2:
	for d in defs:
	is_multi[d] = True
	return False


	def has_mvp_use(program):
	is_mvp = [False] * MAX_PROGRAM_DEFS
	for uses, defs in program:
	if uses and all(is_mvp[u] for u in uses):
	return True
	if len(defs) <= 1:
	if any(is_mvp[u] for u in uses):
	return True
	for d in defs:
	is_mvp[d] = True
	return False


	def is_interesting(program):
	# Allow only multivalue single-op programs
	if len(program) == 1:
	return len(program[0][1]) > 1

	# Reject programs where the last two instructions are identical
	if len(program) >= 2 and program[-1][0] == program[-2][0]:
	return False

	# Reject programs with too many ops that don't produce values
	if get_num_terminal_ops(program) > 2:
	return False

	# The third use of a value is no more interesting than the second
	if get_max_uses(program) >= 3:
	return False

	# Reject nontrivial programs that have unused instructions
	if has_unused_op(program):
	return False

	# Reject programs that have boring MVP uses of MVP defs
	if has_mvp_use(program):
	return False

	# Otherwise if it has multivalue usage it is interesting
	return has_multivalue_use(program)


	def make_llvm_type(num_defs):
	if num_defs == 0:
	return 'void'
	else:
	return '{' + ', '.join(['i32'] * num_defs) + '}'


	def make_llvm_op_name(num_uses, num_defs):
	return f'op_{num_uses}_to_{num_defs}'


	def make_llvm_args(first_use, num_uses):
	return ', '.join([f'i32 %t{first_use + i}' for i in range(num_uses)])


	def print_llvm_program(program, name):
	tmp = 0
	def_data = []
	print(f'define void @{name}() {{')
	for uses, defs in program:
	first_arg = tmp
	# Extract operands
	for use in uses:
	ret_type, var, idx = def_data[use]
	print(f' %t{tmp} = extractvalue {ret_type} %t{var}, {idx}')
	tmp += 1
	# Print instruction
	assignment = ''
	if len(defs) > 0:
	assignment = f'%t{tmp} = '
	result_var = tmp
	tmp += 1
	ret_type = make_llvm_type(len(defs))
	op_name = make_llvm_op_name(len(uses), len(defs))
	args = make_llvm_args(first_arg, len(uses))
	print(f' {assignment}call {ret_type} @{op_name}({args})')
	# Update def_data
	for i in range(len(defs)):
	def_data.append((ret_type, result_var, i))
	print(' ret void')
	print('}')


	def print_header():
	print('; NOTE: Test functions have been generated by multivalue-stackify.py.')
	print()
	print('; RUN: llc < %s -verify-machineinstrs -mattr=+multivalue',
	'\| FileCheck %s')
	print()
	print('; Test that the multivalue stackification works')
	print()
	print('target datalayout = "e-m:e-p:32:32-i64:64-n32:64-S128"')
	print('target triple = "wasm32-unknown-unknown"')
	print()
	for num_uses in range(MAX_OP_USES + 1):
	for num_defs in range(MAX_PROGRAM_DEFS + 1):
	if num_uses == 0 and num_defs == 0:
	continue
	ret_type = make_llvm_type(num_defs)
	op_name = make_llvm_op_name(num_uses, num_defs)
	args = make_llvm_args(0, num_uses)
	print(f'declare {ret_type} @{op_name}({args})')
	print()


	if __name__ == '__main__':
	print_header()
	for i, program in generate_programs():
	if is_interesting(program):
	print_llvm_program(program, 'f' + str(i))
	print()