Commit 71433dd7 authored by Dag Sverre Seljebotn's avatar Dag Sverre Seljebotn

Buffers: Added __cythonbufferdefaults__ and refactor in buffer option parsing.

dtype is not supported yet (needs change in parser).
parent eedd37bc
......@@ -5,6 +5,7 @@ from Cython.Compiler.ExprNodes import *
from Cython.Compiler.TreeFragment import TreeFragment
from Cython.Utils import EncodedString
from Cython.Compiler.Errors import CompileError
import Interpreter
import PyrexTypes
from sets import Set as set
import textwrap
......@@ -104,7 +105,73 @@ class IntroduceBufferAuxiliaryVars(CythonTransform):
self.visitchildren(node)
return node
#
# Analysis
#
buffer_options = ("dtype", "ndim", "mode") # ordered!
buffer_defaults = {"ndim": 1, "mode": "full"}
ERR_BUF_OPTION_UNKNOWN = '"%s" is not a buffer option'
ERR_BUF_TOO_MANY = 'Too many buffer options'
ERR_BUF_DUP = '"%s" buffer option already supplied'
ERR_BUF_MISSING = '"%s" missing'
ERR_BUF_MODE = 'Only allowed buffer modes are "full" or "strided" (as a compile-time string)'
ERR_BUF_NDIM = 'ndim must be a non-negative integer'
def analyse_buffer_options(globalpos, env, posargs, dictargs, defaults=None, need_complete=True):
"""
Must be called during type analysis, as analyse is called
on the dtype argument.
posargs and dictargs should consist of a list and a dict
of tuples (value, pos). Defaults should be a dict of values.
Returns a dict containing all the options a buffer can have and
its value (with the positions stripped).
"""
if defaults is None:
defaults = buffer_defaults
posargs, dictargs = Interpreter.interpret_compiletime_options(posargs, dictargs, type_env=env)
if len(posargs) > len(buffer_options):
raise CompileError(posargs[-1][1], ERR_BUF_TOO_MANY)
options = {}
for name, (value, pos) in dictargs.iteritems():
if not name in buffer_options:
raise CompileError(pos, ERR_BUF_OPTION_UNKNOWN % name)
options[name] = value
for name, (value, pos) in zip(buffer_options, posargs):
if not name in buffer_options:
raise CompileError(pos, ERR_BUF_OPTION_UNKNOWN % name)
if name in options:
raise CompileError(pos, ERR_BUF_DUP % name)
options[name] = value
# Check that they are all there and copy defaults
for name in buffer_options:
if not name in options:
try:
options[name] = defaults[name]
except KeyError:
if need_complete:
raise CompileError(globalpos, ERR_BUF_MISSING % name)
ndim = options["ndim"]
if not isinstance(ndim, int) or ndim < 0:
raise CompileError(globalpos, ERR_BUF_NDIM)
if not options["mode"] in ('full', 'strided'):
raise CompileError(globalpos, ERR_BUF_MODE)
return options
#
# Code generation
#
def get_flags(buffer_aux, buffer_type):
......
"""
This module deals with interpreting the parse tree as Python
would have done, in the compiler.
For now this only covers parse tree to value conversion of
compile-time values.
"""
from Nodes import *
from ExprNodes import *
from Visitor import BasicVisitor
from Errors import CompileError
class EmptyScope:
def lookup(self, name):
return None
empty_scope = EmptyScope()
def interpret_compiletime_options(optlist, optdict, type_env=None):
"""
Tries to interpret a list of compile time option nodes.
The result will be a tuple (optlist, optdict) but where
all expression nodes have been interpreted. The result is
in the form of tuples (value, pos).
optlist is a list of nodes, while optdict is a DictNode (the
result optdict is a dict)
If type_env is set, all type nodes will be analysed and the resulting
type set. Otherwise only interpretateable ExprNodes
are allowed, other nodes raises errors.
A CompileError will be raised if there are problems.
"""
def interpret(node):
if isinstance(node, CBaseTypeNode):
if type_env:
return (node.analyse(type_env), node.pos)
else:
raise CompileError(node.pos, "Type not allowed here.")
else:
return (node.compile_time_value(empty_scope), node.pos)
if optlist:
optlist = [interpret(x) for x in optlist]
if optdict:
assert isinstance(optdict, DictNode)
new_optdict = {}
for item in optdict.key_value_pairs:
new_optdict[item.key.value] = interpret(item.value)
optdict = new_optdict
return (optlist, new_optdict)
......@@ -573,29 +573,33 @@ class CSimpleBaseTypeNode(CBaseTypeNode):
else:
return PyrexTypes.error_type
class CBufferAccessTypeNode(Node):
class CBufferAccessTypeNode(CBaseTypeNode):
# After parsing:
# positional_args [ExprNode] List of positional arguments
# keyword_args DictNode Keyword arguments
# base_type_node CBaseTypeNode
# After PostParse:
# dtype_node CBaseTypeNode
# ndim int
# After analysis:
# type PyrexType.PyrexType
# type PyrexType.BufferType ...containing the right options
child_attrs = ["base_type_node", "positional_args", "keyword_args",
"dtype_node"]
child_attrs = ["base_type_node", "positional_args",
"keyword_args", "dtype_node"]
dtype_node = None
def analyse(self, env):
base_type = self.base_type_node.analyse(env)
dtype = self.dtype_node.analyse(env)
self.type = PyrexTypes.BufferType(base_type, dtype=dtype, ndim=self.ndim,
mode=self.mode)
import Buffer
options = Buffer.analyse_buffer_options(
self.pos,
env,
self.positional_args,
self.keyword_args,
base_type.buffer_defaults)
self.type = PyrexTypes.BufferType(base_type, **options)
return self.type
class CComplexBaseTypeNode(CBaseTypeNode):
......@@ -628,7 +632,6 @@ class CVarDefNode(StatNode):
dest_scope = env
self.dest_scope = dest_scope
base_type = self.base_type.analyse(env)
if (dest_scope.is_c_class_scope
and self.visibility == 'public'
and base_type.is_pyobject
......@@ -2051,16 +2054,26 @@ class CClassDefNode(ClassDefNode):
# body StatNode or None
# entry Symtab.Entry
# base_type PyExtensionType or None
# bufferdefaults dict or None Declares defaults for a buffer
# buffer_defaults_node DictNode or None Declares defaults for a buffer
# buffer_defaults_pos
child_attrs = ["body"]
bufferdefaults = None
buffer_defaults_node = None
buffer_defaults_pos = None
def analyse_declarations(self, env):
#print "CClassDefNode.analyse_declarations:", self.class_name
#print "...visibility =", self.visibility
#print "...module_name =", self.module_name
import Buffer
if self.buffer_defaults_node:
buffer_defaults = Buffer.analyse_buffer_options(self.buffer_defaults_pos,
env, [], self.buffer_defaults_node,
need_complete=False)
else:
buffer_defaults = None
if env.in_cinclude and not self.objstruct_name:
error(self.pos, "Object struct name specification required for "
"C class defined in 'extern from' block")
......@@ -2112,7 +2125,8 @@ class CClassDefNode(ClassDefNode):
typeobj_cname = self.typeobj_name,
visibility = self.visibility,
typedef_flag = self.typedef_flag,
api = self.api)
api = self.api,
buffer_defaults = buffer_defaults)
if home_scope is not env and self.visibility == 'extern':
env.add_imported_entry(self.class_name, self.entry, pos)
scope = self.entry.type.scope
......
......@@ -77,15 +77,10 @@ class NormalizeTree(CythonTransform):
class PostParseError(CompileError): pass
# error strings checked by unit tests, so define them
ERR_BUF_OPTION_UNKNOWN = '"%s" is not a buffer option'
ERR_BUF_TOO_MANY = 'Too many buffer options'
ERR_BUF_DUP = '"%s" buffer option already supplied'
ERR_BUF_MISSING = '"%s" missing'
ERR_BUF_INT = '"%s" must be an integer'
ERR_BUF_NONNEG = '"%s" must be non-negative'
ERR_CDEF_INCLASS = 'Cannot assign default value to cdef class attributes'
ERR_BUF_LOCALONLY = 'Buffer types only allowed as function local variables'
ERR_BUF_MODEHELP = 'Only allowed buffer modes are "full" or "strided" (as a compile-time string)'
ERR_BUF_DEFAULTS = 'Invalid buffer defaults specification (see docs)'
ERR_INVALID_SPECIALATTR_TYPE = 'Special attributes must not have a type declared'
class PostParse(CythonTransform):
"""
Basic interpretation of the parse tree, as well as validity
......@@ -97,10 +92,24 @@ class PostParse(CythonTransform):
- Default values to cdef assignments are turned into single
assignments following the declaration (everywhere but in class
bodies, where they raise a compile error)
- CBufferAccessTypeNode has its options interpreted:
- Interpret some node structures into Python runtime values.
Some nodes take compile-time arguments (currently:
CBufferAccessTypeNode[args] and __cythonbufferdefaults__ = {args}),
which should be interpreted. This happens in a general way
and other steps should be taken to ensure validity.
Type arguments cannot be interpreted in this way.
- For __cythonbufferdefaults__ the arguments are checked for
validity.
CBufferAccessTypeNode has its options interpreted:
Any first positional argument goes into the "dtype" attribute,
any "ndim" keyword argument goes into the "ndim" attribute and
so on. Also it is checked that the option combination is valid.
- __cythonbufferdefaults__ attributes are parsed and put into the
type information.
Note: Currently Parsing.py does a lot of interpretation and
reorganization that can be refactored into this transform
......@@ -110,6 +119,12 @@ class PostParse(CythonTransform):
# Track our context.
scope_type = None # can be either of 'module', 'function', 'class'
def __init__(self, context):
super(PostParse, self).__init__(context)
self.specialattribute_handlers = {
'__cythonbufferdefaults__' : self.handle_bufferdefaults
}
def visit_ModuleNode(self, node):
self.scope_type = 'module'
self.visitchildren(node)
......@@ -118,8 +133,10 @@ class PostParse(CythonTransform):
def visit_ClassDefNode(self, node):
prev = self.scope_type
self.scope_type = 'class'
self.classnode = node
self.visitchildren(node)
self.scope_type = prev
del self.classnode
return node
def visit_FuncDefNode(self, node):
......@@ -130,6 +147,12 @@ class PostParse(CythonTransform):
return node
# cdef variables
def handle_bufferdefaults(self, decl):
if not isinstance(decl.default, DictNode):
raise PostParseError(decl.pos, ERR_BUF_DEFAULTS)
self.classnode.buffer_defaults_node = decl.default
self.classnode.buffer_defaults_pos = decl.pos
def visit_CVarDefNode(self, node):
# This assumes only plain names and pointers are assignable on
# declaration. Also, it makes use of the fact that a cdef decl
......@@ -137,81 +160,39 @@ class PostParse(CythonTransform):
# "i = 3; cdef int i = i" and can simply move the nodes around.
try:
self.visitchildren(node)
stats = [node]
newdecls = []
for decl in node.declarators:
declbase = decl
while isinstance(declbase, CPtrDeclaratorNode):
declbase = declbase.base
if isinstance(declbase, CNameDeclaratorNode):
if declbase.default is not None:
if self.scope_type == 'class':
if isinstance(self.classnode, CClassDefNode):
handler = self.specialattribute_handlers.get(decl.name)
if handler:
if decl is not declbase:
raise PostParseError(decl.pos, ERR_INVALID_SPECIALATTR_TYPE)
handler(decl)
continue # Remove declaration
raise PostParseError(decl.pos, ERR_CDEF_INCLASS)
stats.append(SingleAssignmentNode(node.pos,
lhs=NameNode(node.pos, name=declbase.name),
rhs=declbase.default, first=True))
declbase.default = None
newdecls.append(decl)
node.declarators = newdecls
return stats
except PostParseError, e:
# An error in a cdef clause is ok, simply remove the declaration
# and try to move on to report more errors
self.context.nonfatal_error(e)
return None
stats = [node]
for decl in node.declarators:
while isinstance(decl, CPtrDeclaratorNode):
decl = decl.base
if isinstance(decl, CNameDeclaratorNode):
if decl.default is not None:
if self.scope_type == 'class':
raise PostParseError(decl.pos, ERR_CDEF_INCLASS)
stats.append(SingleAssignmentNode(node.pos,
lhs=NameNode(node.pos, name=decl.name),
rhs=decl.default, first=True))
decl.default = None
return stats
# buffer access
buffer_options = ("dtype", "ndim", "mode") # ordered!
def visit_CBufferAccessTypeNode(self, node):
if not self.scope_type == 'function':
raise PostParseError(node.pos, ERR_BUF_LOCALONLY)
options = {}
# Fetch positional arguments
if len(node.positional_args) > len(self.buffer_options):
raise PostParseError(node.pos, ERR_BUF_TOO_MANY)
for arg, unicode_name in zip(node.positional_args, self.buffer_options):
name = str(unicode_name)
options[name] = arg
# Fetch named arguments
for item in node.keyword_args.key_value_pairs:
name = str(item.key.value)
if not name in self.buffer_options:
raise PostParseError(item.key.pos, ERR_BUF_OPTION_UNKNOWN % name)
if name in options.keys():
raise PostParseError(item.key.pos, ERR_BUF_DUP % key)
options[name] = item.value
# get dtype
dtype = options.get("dtype")
if dtype is None:
raise PostParseError(node.pos, ERR_BUF_MISSING % 'dtype')
node.dtype_node = dtype
# get ndim
if "ndim" in options:
ndimnode = options["ndim"]
if not isinstance(ndimnode, IntNode):
# Compile-time values (DEF) are currently resolved by the parser,
# so nothing more to do here
raise PostParseError(ndimnode.pos, ERR_BUF_INT % 'ndim')
ndim_value = int(ndimnode.value)
if ndim_value < 0:
raise PostParseError(ndimnode.pos, ERR_BUF_NONNEG % 'ndim')
node.ndim = int(ndimnode.value)
else:
node.ndim = 1
if "mode" in options:
modenode = options["mode"]
if not isinstance(modenode, StringNode):
raise PostParseError(modenode.pos, ERR_BUF_MODEHELP)
mode = modenode.value
if not mode in ('full', 'strided'):
raise PostParseError(modenode.pos, ERR_BUF_MODEHELP)
node.mode = mode
else:
node.mode = 'full'
# We're done with the parse tree args
node.positional_args = None
node.keyword_args = None
return node
class PxdPostParse(CythonTransform):
......
......@@ -224,11 +224,13 @@ class PyObjectType(PyrexType):
#
# Base class for all Python object types (reference-counted).
#
# buffer_defaults dict or None Default options for bu
is_pyobject = 1
default_value = "0"
parsetuple_format = "O"
pymemberdef_typecode = "T_OBJECT"
buffer_defaults = None
def __str__(self):
return "Python object"
......@@ -271,6 +273,7 @@ class BuiltinObjectType(PyObjectType):
return "<%s>"% self.cname
def assignable_from(self, src_type):
if isinstance(src_type, BuiltinObjectType):
return src_type.name == self.name
else:
......
......@@ -946,7 +946,8 @@ class ModuleScope(Scope):
def declare_c_class(self, name, pos, defining = 0, implementing = 0,
module_name = None, base_type = None, objstruct_cname = None,
typeobj_cname = None, visibility = 'private', typedef_flag = 0, api = 0):
typeobj_cname = None, visibility = 'private', typedef_flag = 0, api = 0,
buffer_defaults = None):
#
# Look for previous declaration as a type
#
......@@ -970,6 +971,7 @@ class ModuleScope(Scope):
if not entry:
type = PyrexTypes.PyExtensionType(name, typedef_flag, base_type)
type.pos = pos
type.buffer_defaults = buffer_defaults
if visibility == 'extern':
type.module_name = module_name
else:
......
......@@ -2,6 +2,7 @@ from Cython.TestUtils import CythonTest
import Cython.Compiler.Errors as Errors
from Cython.Compiler.Nodes import *
from Cython.Compiler.ParseTreeTransforms import *
from Cython.Compiler.Buffer import *
class TestBufferParsing(CythonTest):
......@@ -49,6 +50,8 @@ class TestBufferParsing(CythonTest):
# See also tests/error/e_bufaccess.pyx and tets/run/bufaccess.pyx
# THESE TESTS ARE NOW DISABLED, the code they test was pretty much
# refactored away
class TestBufferOptions(CythonTest):
# Tests the full parsing of the options within the brackets
......@@ -78,24 +81,24 @@ class TestBufferOptions(CythonTest):
# e = self.should_fail(lambda: self.parse_opts(opts))
self.assertEqual(expected_err, self.error.message_only)
def test_basic(self):
def __test_basic(self):
buf = self.parse_opts(u"unsigned short int, 3")
self.assert_(isinstance(buf.dtype_node, CSimpleBaseTypeNode))
self.assert_(buf.dtype_node.signed == 0 and buf.dtype_node.longness == -1)
self.assertEqual(3, buf.ndim)
def test_dict(self):
def __test_dict(self):
buf = self.parse_opts(u"ndim=3, dtype=unsigned short int")
self.assert_(isinstance(buf.dtype_node, CSimpleBaseTypeNode))
self.assert_(buf.dtype_node.signed == 0 and buf.dtype_node.longness == -1)
self.assertEqual(3, buf.ndim)
def test_ndim(self):
def __test_ndim(self):
self.parse_opts(u"int, 2")
self.non_parse(ERR_BUF_INT % 'ndim', u"int, 'a'")
self.non_parse(ERR_BUF_NONNEG % 'ndim', u"int, -34")
self.non_parse(ERR_BUF_NDIM, u"int, 'a'")
self.non_parse(ERR_BUF_NDIM, u"int, -34")
def test_use_DEF(self):
def __test_use_DEF(self):
t = self.fragment(u"""
DEF ndim = 3
def f():
......
......@@ -15,11 +15,13 @@ _ERRORS = u"""
1:11: Buffer types only allowed as function local variables
3:15: Buffer types only allowed as function local variables
6:27: "fakeoption" is not a buffer option
7:22: "ndim" must be non-negative
8:15: "dtype" missing
9:21: "ndim" must be an integer
10:15: Too many buffer options
11:24: Only allowed buffer modes are "full" or "strided" (as a compile-time string)
12:28: Only allowed buffer modes are "full" or "strided" (as a compile-time string)
"""
#TODO:
#7:22: "ndim" must be non-negative
#8:15: "dtype" missing
#9:21: "ndim" must be an integer
#10:15: Too many buffer options
#11:24: Only allowed buffer modes are "full" or "strided" (as a compile-time string)
#12:28: Only allowed buffer modes are "full" or "strided" (as a compile-time string)
#"""
......@@ -894,7 +894,7 @@ cdef class UnsignedShortMockBuffer(MockBuffer):
cdef get_itemsize(self): return sizeof(unsigned short)
cdef get_default_format(self): return "=H"
cdef class IntStridedMockBuffer(MockBuffer):
cdef class IntStridedMockBuffer(IntMockBuffer):
cdef __cythonbufferdefaults__ = {"mode" : "strided"}
cdef class ErrorBuffer:
......@@ -946,6 +946,10 @@ def typedbuffer2(IntMockBuffer[int, 1] obj):
@testcase
def bufdefaults1(IntStridedMockBuffer[int, 1] buf):
"""
For IntStridedMockBuffer, mode should be
"strided" by defaults which should show
up in the flags.
>>> A = IntStridedMockBuffer("A", range(10))
>>> bufdefaults1(A)
acquired A
......
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