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from __future__ import absolute_import
import itertools
from time import time
from . import Errors
from . import DebugFlags
from . import Options
from .Errors import CompileError, InternalError, AbortError
from . import Naming
#
# Really small pipeline stages
#
def dumptree(t):
# For quick debugging in pipelines
print(t.dump())
return t
def abort_on_errors(node):
# Stop the pipeline if there are any errors.
if Errors.num_errors != 0:
raise AbortError("pipeline break")
return node
def parse_stage_factory(context):
def parse(compsrc):
source_desc = compsrc.source_desc
full_module_name = compsrc.full_module_name
initial_pos = (source_desc, 1, 0)
saved_cimport_from_pyx, Options.cimport_from_pyx = Options.cimport_from_pyx, False
scope = context.find_module(full_module_name, pos = initial_pos, need_pxd = 0)
Options.cimport_from_pyx = saved_cimport_from_pyx
tree = context.parse(source_desc, scope, pxd = 0, full_module_name = full_module_name)
tree.compilation_source = compsrc
tree.scope = scope
tree.is_pxd = False
return tree
return parse
def parse_pxd_stage_factory(context, scope, module_name):
def parse(source_desc):
tree = context.parse(source_desc, scope, pxd=True,
full_module_name=module_name)
tree.scope = scope
tree.is_pxd = True
return tree
return parse
def generate_pyx_code_stage_factory(options, result):
def generate_pyx_code_stage(module_node):
module_node.process_implementation(options, result)
result.compilation_source = module_node.compilation_source
return result
return generate_pyx_code_stage
def inject_pxd_code_stage_factory(context):
def inject_pxd_code_stage(module_node):
for name, (statlistnode, scope) in context.pxds.items():
module_node.merge_in(statlistnode, scope)
return module_node
return inject_pxd_code_stage
def use_utility_code_definitions(scope, target, seen=None):
if seen is None:
seen = set()
for entry in scope.entries.values():
if entry in seen:
continue
seen.add(entry)
if entry.used and entry.utility_code_definition:
target.use_utility_code(entry.utility_code_definition)
for required_utility in entry.utility_code_definition.requires:
target.use_utility_code(required_utility)
elif entry.as_module:
use_utility_code_definitions(entry.as_module, target, seen)
def sort_utility_codes(utilcodes):
ranks = {}
def get_rank(utilcode):
if utilcode not in ranks:
ranks[utilcode] = 0 # prevent infinite recursion on circular dependencies
original_order = len(ranks)
ranks[utilcode] = 1 + min([get_rank(dep) for dep in utilcode.requires or ()] or [-1]) + original_order * 1e-8
return ranks[utilcode]
for utilcode in utilcodes:
get_rank(utilcode)
return [utilcode for utilcode, _ in sorted(ranks.items(), key=lambda kv: kv[1])]
def normalize_deps(utilcodes):
deps = {}
for utilcode in utilcodes:
deps[utilcode] = utilcode
def unify_dep(dep):
if dep in deps:
return deps[dep]
else:
deps[dep] = dep
return dep
for utilcode in utilcodes:
utilcode.requires = [unify_dep(dep) for dep in utilcode.requires or ()]
def inject_utility_code_stage_factory(context):
def inject_utility_code_stage(module_node):
module_node.prepare_utility_code()
use_utility_code_definitions(context.cython_scope, module_node.scope)
module_node.scope.utility_code_list = sort_utility_codes(module_node.scope.utility_code_list)
normalize_deps(module_node.scope.utility_code_list)
added = []
# Note: the list might be extended inside the loop (if some utility code
# pulls in other utility code, explicitly or implicitly)
for utilcode in module_node.scope.utility_code_list:
if utilcode in added:
continue
added.append(utilcode)
if utilcode.requires:
for dep in utilcode.requires:
if dep not in added and dep not in module_node.scope.utility_code_list:
module_node.scope.utility_code_list.append(dep)
tree = utilcode.get_tree(cython_scope=context.cython_scope)
if tree:
module_node.merge_in(tree.with_compiler_directives(),
tree.scope, merge_scope=True)
return module_node
return inject_utility_code_stage
#
# Pipeline factories
#
def create_pipeline(context, mode, exclude_classes=()):
assert mode in ('pyx', 'py', 'pxd')
from .Visitor import PrintTree
from .ParseTreeTransforms import WithTransform, NormalizeTree, PostParse, PxdPostParse
from .ParseTreeTransforms import ForwardDeclareTypes, InjectGilHandling, AnalyseDeclarationsTransform
from .ParseTreeTransforms import AnalyseExpressionsTransform, FindInvalidUseOfFusedTypes
from .ParseTreeTransforms import CreateClosureClasses, MarkClosureVisitor, DecoratorTransform
from .ParseTreeTransforms import TrackNumpyAttributes, InterpretCompilerDirectives, TransformBuiltinMethods
from .ParseTreeTransforms import ExpandInplaceOperators, ParallelRangeTransform
from .ParseTreeTransforms import CalculateQualifiedNamesTransform
from .TypeInference import MarkParallelAssignments, MarkOverflowingArithmetic
from .ParseTreeTransforms import AdjustDefByDirectives, AlignFunctionDefinitions
from .ParseTreeTransforms import RemoveUnreachableCode, GilCheck
from .FlowControl import ControlFlowAnalysis
from .AnalysedTreeTransforms import AutoTestDictTransform
from .AutoDocTransforms import EmbedSignature
from .Optimize import FlattenInListTransform, SwitchTransform, IterationTransform
from .Optimize import EarlyReplaceBuiltinCalls, OptimizeBuiltinCalls
from .Optimize import InlineDefNodeCalls
from .Optimize import ConstantFolding, FinalOptimizePhase
from .Optimize import DropRefcountingTransform
from .Optimize import ConsolidateOverflowCheck
from .Buffer import IntroduceBufferAuxiliaryVars
from .ModuleNode import check_c_declarations, check_c_declarations_pxd
if mode == 'pxd':
_check_c_declarations = check_c_declarations_pxd
_specific_post_parse = PxdPostParse(context)
else:
_check_c_declarations = check_c_declarations
_specific_post_parse = None
if mode == 'py':
_align_function_definitions = AlignFunctionDefinitions(context)
else:
_align_function_definitions = None
# NOTE: This is the "common" parts of the pipeline, which is also
# code in pxd files. So it will be run multiple times in a
# compilation stage.
stages = [
NormalizeTree(context),
PostParse(context),
_specific_post_parse,
TrackNumpyAttributes(),
InterpretCompilerDirectives(context, context.compiler_directives),
ParallelRangeTransform(context),
AdjustDefByDirectives(context),
WithTransform(context),
MarkClosureVisitor(context),
_align_function_definitions,
RemoveUnreachableCode(context),
ConstantFolding(),
FlattenInListTransform(),
DecoratorTransform(context),
ForwardDeclareTypes(context),
InjectGilHandling(),
AnalyseDeclarationsTransform(context),
AutoTestDictTransform(context),
EmbedSignature(context),
EarlyReplaceBuiltinCalls(context), ## Necessary?
TransformBuiltinMethods(context),
MarkParallelAssignments(context),
ControlFlowAnalysis(context),
RemoveUnreachableCode(context),
# MarkParallelAssignments(context),
MarkOverflowingArithmetic(context),
IntroduceBufferAuxiliaryVars(context),
_check_c_declarations,
InlineDefNodeCalls(context),
AnalyseExpressionsTransform(context),
FindInvalidUseOfFusedTypes(context),
ExpandInplaceOperators(context),
IterationTransform(context),
SwitchTransform(context),
OptimizeBuiltinCalls(context), ## Necessary?
CreateClosureClasses(context), ## After all lookups and type inference
CalculateQualifiedNamesTransform(context),
ConsolidateOverflowCheck(context),
DropRefcountingTransform(),
FinalOptimizePhase(context),
GilCheck(),
]
filtered_stages = []
for s in stages:
if s.__class__ not in exclude_classes:
filtered_stages.append(s)
return filtered_stages
def create_pyx_pipeline(context, options, result, py=False, exclude_classes=()):
if py:
mode = 'py'
else:
mode = 'pyx'
test_support = []
if options.evaluate_tree_assertions:
from ..TestUtils import TreeAssertVisitor
test_support.append(TreeAssertVisitor())
if options.gdb_debug:
from ..Debugger import DebugWriter # requires Py2.5+
from .ParseTreeTransforms import DebugTransform
context.gdb_debug_outputwriter = DebugWriter.CythonDebugWriter(
options.output_dir)
debug_transform = [DebugTransform(context, options, result)]
else:
debug_transform = []
return list(itertools.chain(
[parse_stage_factory(context)],
create_pipeline(context, mode, exclude_classes=exclude_classes),
test_support,
[inject_pxd_code_stage_factory(context),
inject_utility_code_stage_factory(context),
abort_on_errors],
debug_transform,
[generate_pyx_code_stage_factory(options, result)]))
def create_pxd_pipeline(context, scope, module_name):
from .CodeGeneration import ExtractPxdCode
# The pxd pipeline ends up with a CCodeWriter containing the
# code of the pxd, as well as a pxd scope.
return [
parse_pxd_stage_factory(context, scope, module_name)
] + create_pipeline(context, 'pxd') + [
ExtractPxdCode()
]
def create_py_pipeline(context, options, result):
return create_pyx_pipeline(context, options, result, py=True)
def create_pyx_as_pxd_pipeline(context, result):
from .ParseTreeTransforms import AlignFunctionDefinitions, \
MarkClosureVisitor, WithTransform, AnalyseDeclarationsTransform
from .Optimize import ConstantFolding, FlattenInListTransform
from .Nodes import StatListNode
pipeline = []
pyx_pipeline = create_pyx_pipeline(context, context.options, result,
exclude_classes=[
AlignFunctionDefinitions,
MarkClosureVisitor,
ConstantFolding,
FlattenInListTransform,
WithTransform
])
for stage in pyx_pipeline:
pipeline.append(stage)
if isinstance(stage, AnalyseDeclarationsTransform):
# This is the last stage we need.
break
def fake_pxd(root):
for entry in root.scope.entries.values():
if not entry.in_cinclude:
entry.defined_in_pxd = 1
if entry.name == entry.cname and entry.visibility != 'extern':
# Always mangle non-extern cimported entries.
entry.cname = entry.scope.mangle(Naming.func_prefix, entry.name)
return StatListNode(root.pos, stats=[]), root.scope
pipeline.append(fake_pxd)
return pipeline
def insert_into_pipeline(pipeline, transform, before=None, after=None):
"""
Insert a new transform into the pipeline after or before an instance of
the given class. e.g.
pipeline = insert_into_pipeline(pipeline, transform,
after=AnalyseDeclarationsTransform)
"""
assert before or after
cls = before or after
for i, t in enumerate(pipeline):
if isinstance(t, cls):
break
if after:
i += 1
return pipeline[:i] + [transform] + pipeline[i:]
#
# Running a pipeline
#
_pipeline_entry_points = {}
def run_pipeline(pipeline, source, printtree=True):
from .Visitor import PrintTree
exec_ns = globals().copy() if DebugFlags.debug_verbose_pipeline else None
def run(phase, data):
return phase(data)
error = None
data = source
try:
try:
for phase in pipeline:
if phase is not None:
if not printtree and isinstance(phase, PrintTree):
continue
if DebugFlags.debug_verbose_pipeline:
t = time()
print("Entering pipeline phase %r" % phase)
# create a new wrapper for each step to show the name in profiles
phase_name = getattr(phase, '__name__', type(phase).__name__)
try:
run = _pipeline_entry_points[phase_name]
except KeyError:
exec("def %s(phase, data): return phase(data)" % phase_name, exec_ns)
run = _pipeline_entry_points[phase_name] = exec_ns[phase_name]
data = run(phase, data)
if DebugFlags.debug_verbose_pipeline:
print(" %.3f seconds" % (time() - t))
except CompileError as err:
# err is set
Errors.report_error(err, use_stack=False)
error = err
except InternalError as err:
# Only raise if there was not an earlier error
if Errors.num_errors == 0:
raise
error = err
except AbortError as err:
error = err
return (error, data)
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