diff options
author | Tim Rowley <[email protected]> | 2017-03-28 16:58:58 -0500 |
---|---|---|
committer | Tim Rowley <[email protected]> | 2017-04-05 18:20:45 -0500 |
commit | c1b7a5780d6d2391bcb0994e89f028ff0f0455d3 (patch) | |
tree | f35958314763756fc3aef3212f1288c25f9ecd5a | |
parent | 97dab87a22ef3be7d6b35200204dfbca3e7b4399 (diff) |
swr: [rasterizer codegen] remove copy of mako
mako is already a mesa build requirement, extra copy not needed.
Tested building against mesa build baseline (mako-0.8.0).
Reviewed-by: Bruce Cherniak <[email protected]>
18 files changed, 0 insertions, 7201 deletions
diff --git a/src/gallium/drivers/swr/Makefile.am b/src/gallium/drivers/swr/Makefile.am index c41662fbf2e..0d71f52b1e6 100644 --- a/src/gallium/drivers/swr/Makefile.am +++ b/src/gallium/drivers/swr/Makefile.am @@ -240,23 +240,6 @@ EXTRA_DIST = \ rasterizer/codegen/gen_common.py \ rasterizer/codegen/gen_knobs.py \ rasterizer/codegen/knob_defs.py \ - rasterizer/codegen/mako/ast.py \ - rasterizer/codegen/mako/_ast_util.py \ - rasterizer/codegen/mako/cache.py \ - rasterizer/codegen/mako/cmd.py \ - rasterizer/codegen/mako/codegen.py \ - rasterizer/codegen/mako/compat.py \ - rasterizer/codegen/mako/exceptions.py \ - rasterizer/codegen/mako/filters.py \ - rasterizer/codegen/mako/__init__.py \ - rasterizer/codegen/mako/lexer.py \ - rasterizer/codegen/mako/lookup.py \ - rasterizer/codegen/mako/parsetree.py \ - rasterizer/codegen/mako/pygen.py \ - rasterizer/codegen/mako/pyparser.py \ - rasterizer/codegen/mako/runtime.py \ - rasterizer/codegen/mako/template.py \ - rasterizer/codegen/mako/util.py \ rasterizer/codegen/templates/gen_ar_event.cpp \ rasterizer/codegen/templates/gen_ar_event.hpp \ rasterizer/codegen/templates/gen_ar_eventhandler.hpp \ diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/__init__.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/__init__.py deleted file mode 100644 index d9638481889..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/__init__.py +++ /dev/null @@ -1,8 +0,0 @@ -# mako/__init__.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - - -__version__ = '1.0.1' diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/_ast_util.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/_ast_util.py deleted file mode 100644 index efbc4fc245d..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/_ast_util.py +++ /dev/null @@ -1,845 +0,0 @@ -# mako/_ast_util.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -""" - ast - ~~~ - - The `ast` module helps Python applications to process trees of the Python - abstract syntax grammar. The abstract syntax itself might change with - each Python release; this module helps to find out programmatically what - the current grammar looks like and allows modifications of it. - - An abstract syntax tree can be generated by passing `ast.PyCF_ONLY_AST` as - a flag to the `compile()` builtin function or by using the `parse()` - function from this module. The result will be a tree of objects whose - classes all inherit from `ast.AST`. - - A modified abstract syntax tree can be compiled into a Python code object - using the built-in `compile()` function. - - Additionally various helper functions are provided that make working with - the trees simpler. The main intention of the helper functions and this - module in general is to provide an easy to use interface for libraries - that work tightly with the python syntax (template engines for example). - - - :copyright: Copyright 2008 by Armin Ronacher. - :license: Python License. -""" -from _ast import * -from mako.compat import arg_stringname - -BOOLOP_SYMBOLS = { - And: 'and', - Or: 'or' -} - -BINOP_SYMBOLS = { - Add: '+', - Sub: '-', - Mult: '*', - Div: '/', - FloorDiv: '//', - Mod: '%', - LShift: '<<', - RShift: '>>', - BitOr: '|', - BitAnd: '&', - BitXor: '^' -} - -CMPOP_SYMBOLS = { - Eq: '==', - Gt: '>', - GtE: '>=', - In: 'in', - Is: 'is', - IsNot: 'is not', - Lt: '<', - LtE: '<=', - NotEq: '!=', - NotIn: 'not in' -} - -UNARYOP_SYMBOLS = { - Invert: '~', - Not: 'not', - UAdd: '+', - USub: '-' -} - -ALL_SYMBOLS = {} -ALL_SYMBOLS.update(BOOLOP_SYMBOLS) -ALL_SYMBOLS.update(BINOP_SYMBOLS) -ALL_SYMBOLS.update(CMPOP_SYMBOLS) -ALL_SYMBOLS.update(UNARYOP_SYMBOLS) - - -def parse(expr, filename='<unknown>', mode='exec'): - """Parse an expression into an AST node.""" - return compile(expr, filename, mode, PyCF_ONLY_AST) - - -def to_source(node, indent_with=' ' * 4): - """ - This function can convert a node tree back into python sourcecode. This - is useful for debugging purposes, especially if you're dealing with custom - asts not generated by python itself. - - It could be that the sourcecode is evaluable when the AST itself is not - compilable / evaluable. The reason for this is that the AST contains some - more data than regular sourcecode does, which is dropped during - conversion. - - Each level of indentation is replaced with `indent_with`. Per default this - parameter is equal to four spaces as suggested by PEP 8, but it might be - adjusted to match the application's styleguide. - """ - generator = SourceGenerator(indent_with) - generator.visit(node) - return ''.join(generator.result) - - -def dump(node): - """ - A very verbose representation of the node passed. This is useful for - debugging purposes. - """ - def _format(node): - if isinstance(node, AST): - return '%s(%s)' % (node.__class__.__name__, - ', '.join('%s=%s' % (a, _format(b)) - for a, b in iter_fields(node))) - elif isinstance(node, list): - return '[%s]' % ', '.join(_format(x) for x in node) - return repr(node) - if not isinstance(node, AST): - raise TypeError('expected AST, got %r' % node.__class__.__name__) - return _format(node) - - -def copy_location(new_node, old_node): - """ - Copy the source location hint (`lineno` and `col_offset`) from the - old to the new node if possible and return the new one. - """ - for attr in 'lineno', 'col_offset': - if attr in old_node._attributes and attr in new_node._attributes \ - and hasattr(old_node, attr): - setattr(new_node, attr, getattr(old_node, attr)) - return new_node - - -def fix_missing_locations(node): - """ - Some nodes require a line number and the column offset. Without that - information the compiler will abort the compilation. Because it can be - a dull task to add appropriate line numbers and column offsets when - adding new nodes this function can help. It copies the line number and - column offset of the parent node to the child nodes without this - information. - - Unlike `copy_location` this works recursive and won't touch nodes that - already have a location information. - """ - def _fix(node, lineno, col_offset): - if 'lineno' in node._attributes: - if not hasattr(node, 'lineno'): - node.lineno = lineno - else: - lineno = node.lineno - if 'col_offset' in node._attributes: - if not hasattr(node, 'col_offset'): - node.col_offset = col_offset - else: - col_offset = node.col_offset - for child in iter_child_nodes(node): - _fix(child, lineno, col_offset) - _fix(node, 1, 0) - return node - - -def increment_lineno(node, n=1): - """ - Increment the line numbers of all nodes by `n` if they have line number - attributes. This is useful to "move code" to a different location in a - file. - """ - for node in zip((node,), walk(node)): - if 'lineno' in node._attributes: - node.lineno = getattr(node, 'lineno', 0) + n - - -def iter_fields(node): - """Iterate over all fields of a node, only yielding existing fields.""" - # CPython 2.5 compat - if not hasattr(node, '_fields') or not node._fields: - return - for field in node._fields: - try: - yield field, getattr(node, field) - except AttributeError: - pass - - -def get_fields(node): - """Like `iter_fiels` but returns a dict.""" - return dict(iter_fields(node)) - - -def iter_child_nodes(node): - """Iterate over all child nodes or a node.""" - for name, field in iter_fields(node): - if isinstance(field, AST): - yield field - elif isinstance(field, list): - for item in field: - if isinstance(item, AST): - yield item - - -def get_child_nodes(node): - """Like `iter_child_nodes` but returns a list.""" - return list(iter_child_nodes(node)) - - -def get_compile_mode(node): - """ - Get the mode for `compile` of a given node. If the node is not a `mod` - node (`Expression`, `Module` etc.) a `TypeError` is thrown. - """ - if not isinstance(node, mod): - raise TypeError('expected mod node, got %r' % node.__class__.__name__) - return { - Expression: 'eval', - Interactive: 'single' - }.get(node.__class__, 'expr') - - -def get_docstring(node): - """ - Return the docstring for the given node or `None` if no docstring can be - found. If the node provided does not accept docstrings a `TypeError` - will be raised. - """ - if not isinstance(node, (FunctionDef, ClassDef, Module)): - raise TypeError("%r can't have docstrings" % node.__class__.__name__) - if node.body and isinstance(node.body[0], Str): - return node.body[0].s - - -def walk(node): - """ - Iterate over all nodes. This is useful if you only want to modify nodes in - place and don't care about the context or the order the nodes are returned. - """ - from collections import deque - todo = deque([node]) - while todo: - node = todo.popleft() - todo.extend(iter_child_nodes(node)) - yield node - - -class NodeVisitor(object): - """ - Walks the abstract syntax tree and call visitor functions for every node - found. The visitor functions may return values which will be forwarded - by the `visit` method. - - Per default the visitor functions for the nodes are ``'visit_'`` + - class name of the node. So a `TryFinally` node visit function would - be `visit_TryFinally`. This behavior can be changed by overriding - the `get_visitor` function. If no visitor function exists for a node - (return value `None`) the `generic_visit` visitor is used instead. - - Don't use the `NodeVisitor` if you want to apply changes to nodes during - traversing. For this a special visitor exists (`NodeTransformer`) that - allows modifications. - """ - - def get_visitor(self, node): - """ - Return the visitor function for this node or `None` if no visitor - exists for this node. In that case the generic visit function is - used instead. - """ - method = 'visit_' + node.__class__.__name__ - return getattr(self, method, None) - - def visit(self, node): - """Visit a node.""" - f = self.get_visitor(node) - if f is not None: - return f(node) - return self.generic_visit(node) - - def generic_visit(self, node): - """Called if no explicit visitor function exists for a node.""" - for field, value in iter_fields(node): - if isinstance(value, list): - for item in value: - if isinstance(item, AST): - self.visit(item) - elif isinstance(value, AST): - self.visit(value) - - -class NodeTransformer(NodeVisitor): - """ - Walks the abstract syntax tree and allows modifications of nodes. - - The `NodeTransformer` will walk the AST and use the return value of the - visitor functions to replace or remove the old node. If the return - value of the visitor function is `None` the node will be removed - from the previous location otherwise it's replaced with the return - value. The return value may be the original node in which case no - replacement takes place. - - Here an example transformer that rewrites all `foo` to `data['foo']`:: - - class RewriteName(NodeTransformer): - - def visit_Name(self, node): - return copy_location(Subscript( - value=Name(id='data', ctx=Load()), - slice=Index(value=Str(s=node.id)), - ctx=node.ctx - ), node) - - Keep in mind that if the node you're operating on has child nodes - you must either transform the child nodes yourself or call the generic - visit function for the node first. - - Nodes that were part of a collection of statements (that applies to - all statement nodes) may also return a list of nodes rather than just - a single node. - - Usually you use the transformer like this:: - - node = YourTransformer().visit(node) - """ - - def generic_visit(self, node): - for field, old_value in iter_fields(node): - old_value = getattr(node, field, None) - if isinstance(old_value, list): - new_values = [] - for value in old_value: - if isinstance(value, AST): - value = self.visit(value) - if value is None: - continue - elif not isinstance(value, AST): - new_values.extend(value) - continue - new_values.append(value) - old_value[:] = new_values - elif isinstance(old_value, AST): - new_node = self.visit(old_value) - if new_node is None: - delattr(node, field) - else: - setattr(node, field, new_node) - return node - - -class SourceGenerator(NodeVisitor): - """ - This visitor is able to transform a well formed syntax tree into python - sourcecode. For more details have a look at the docstring of the - `node_to_source` function. - """ - - def __init__(self, indent_with): - self.result = [] - self.indent_with = indent_with - self.indentation = 0 - self.new_lines = 0 - - def write(self, x): - if self.new_lines: - if self.result: - self.result.append('\n' * self.new_lines) - self.result.append(self.indent_with * self.indentation) - self.new_lines = 0 - self.result.append(x) - - def newline(self, n=1): - self.new_lines = max(self.new_lines, n) - - def body(self, statements): - self.new_line = True - self.indentation += 1 - for stmt in statements: - self.visit(stmt) - self.indentation -= 1 - - def body_or_else(self, node): - self.body(node.body) - if node.orelse: - self.newline() - self.write('else:') - self.body(node.orelse) - - def signature(self, node): - want_comma = [] - def write_comma(): - if want_comma: - self.write(', ') - else: - want_comma.append(True) - - padding = [None] * (len(node.args) - len(node.defaults)) - for arg, default in zip(node.args, padding + node.defaults): - write_comma() - self.visit(arg) - if default is not None: - self.write('=') - self.visit(default) - if node.vararg is not None: - write_comma() - self.write('*' + arg_stringname(node.vararg)) - if node.kwarg is not None: - write_comma() - self.write('**' + arg_stringname(node.kwarg)) - - def decorators(self, node): - for decorator in node.decorator_list: - self.newline() - self.write('@') - self.visit(decorator) - - # Statements - - def visit_Assign(self, node): - self.newline() - for idx, target in enumerate(node.targets): - if idx: - self.write(', ') - self.visit(target) - self.write(' = ') - self.visit(node.value) - - def visit_AugAssign(self, node): - self.newline() - self.visit(node.target) - self.write(BINOP_SYMBOLS[type(node.op)] + '=') - self.visit(node.value) - - def visit_ImportFrom(self, node): - self.newline() - self.write('from %s%s import ' % ('.' * node.level, node.module)) - for idx, item in enumerate(node.names): - if idx: - self.write(', ') - self.write(item) - - def visit_Import(self, node): - self.newline() - for item in node.names: - self.write('import ') - self.visit(item) - - def visit_Expr(self, node): - self.newline() - self.generic_visit(node) - - def visit_FunctionDef(self, node): - self.newline(n=2) - self.decorators(node) - self.newline() - self.write('def %s(' % node.name) - self.signature(node.args) - self.write('):') - self.body(node.body) - - def visit_ClassDef(self, node): - have_args = [] - def paren_or_comma(): - if have_args: - self.write(', ') - else: - have_args.append(True) - self.write('(') - - self.newline(n=3) - self.decorators(node) - self.newline() - self.write('class %s' % node.name) - for base in node.bases: - paren_or_comma() - self.visit(base) - # XXX: the if here is used to keep this module compatible - # with python 2.6. - if hasattr(node, 'keywords'): - for keyword in node.keywords: - paren_or_comma() - self.write(keyword.arg + '=') - self.visit(keyword.value) - if node.starargs is not None: - paren_or_comma() - self.write('*') - self.visit(node.starargs) - if node.kwargs is not None: - paren_or_comma() - self.write('**') - self.visit(node.kwargs) - self.write(have_args and '):' or ':') - self.body(node.body) - - def visit_If(self, node): - self.newline() - self.write('if ') - self.visit(node.test) - self.write(':') - self.body(node.body) - while True: - else_ = node.orelse - if len(else_) == 1 and isinstance(else_[0], If): - node = else_[0] - self.newline() - self.write('elif ') - self.visit(node.test) - self.write(':') - self.body(node.body) - else: - self.newline() - self.write('else:') - self.body(else_) - break - - def visit_For(self, node): - self.newline() - self.write('for ') - self.visit(node.target) - self.write(' in ') - self.visit(node.iter) - self.write(':') - self.body_or_else(node) - - def visit_While(self, node): - self.newline() - self.write('while ') - self.visit(node.test) - self.write(':') - self.body_or_else(node) - - def visit_With(self, node): - self.newline() - self.write('with ') - self.visit(node.context_expr) - if node.optional_vars is not None: - self.write(' as ') - self.visit(node.optional_vars) - self.write(':') - self.body(node.body) - - def visit_Pass(self, node): - self.newline() - self.write('pass') - - def visit_Print(self, node): - # XXX: python 2.6 only - self.newline() - self.write('print ') - want_comma = False - if node.dest is not None: - self.write(' >> ') - self.visit(node.dest) - want_comma = True - for value in node.values: - if want_comma: - self.write(', ') - self.visit(value) - want_comma = True - if not node.nl: - self.write(',') - - def visit_Delete(self, node): - self.newline() - self.write('del ') - for idx, target in enumerate(node): - if idx: - self.write(', ') - self.visit(target) - - def visit_TryExcept(self, node): - self.newline() - self.write('try:') - self.body(node.body) - for handler in node.handlers: - self.visit(handler) - - def visit_TryFinally(self, node): - self.newline() - self.write('try:') - self.body(node.body) - self.newline() - self.write('finally:') - self.body(node.finalbody) - - def visit_Global(self, node): - self.newline() - self.write('global ' + ', '.join(node.names)) - - def visit_Nonlocal(self, node): - self.newline() - self.write('nonlocal ' + ', '.join(node.names)) - - def visit_Return(self, node): - self.newline() - self.write('return ') - self.visit(node.value) - - def visit_Break(self, node): - self.newline() - self.write('break') - - def visit_Continue(self, node): - self.newline() - self.write('continue') - - def visit_Raise(self, node): - # XXX: Python 2.6 / 3.0 compatibility - self.newline() - self.write('raise') - if hasattr(node, 'exc') and node.exc is not None: - self.write(' ') - self.visit(node.exc) - if node.cause is not None: - self.write(' from ') - self.visit(node.cause) - elif hasattr(node, 'type') and node.type is not None: - self.visit(node.type) - if node.inst is not None: - self.write(', ') - self.visit(node.inst) - if node.tback is not None: - self.write(', ') - self.visit(node.tback) - - # Expressions - - def visit_Attribute(self, node): - self.visit(node.value) - self.write('.' + node.attr) - - def visit_Call(self, node): - want_comma = [] - def write_comma(): - if want_comma: - self.write(', ') - else: - want_comma.append(True) - - self.visit(node.func) - self.write('(') - for arg in node.args: - write_comma() - self.visit(arg) - for keyword in node.keywords: - write_comma() - self.write(keyword.arg + '=') - self.visit(keyword.value) - if node.starargs is not None: - write_comma() - self.write('*') - self.visit(node.starargs) - if node.kwargs is not None: - write_comma() - self.write('**') - self.visit(node.kwargs) - self.write(')') - - def visit_Name(self, node): - self.write(node.id) - - def visit_NameConstant(self, node): - self.write(str(node.value)) - - def visit_arg(self, node): - self.write(node.arg) - - def visit_Str(self, node): - self.write(repr(node.s)) - - def visit_Bytes(self, node): - self.write(repr(node.s)) - - def visit_Num(self, node): - self.write(repr(node.n)) - - def visit_Tuple(self, node): - self.write('(') - idx = -1 - for idx, item in enumerate(node.elts): - if idx: - self.write(', ') - self.visit(item) - self.write(idx and ')' or ',)') - - def sequence_visit(left, right): - def visit(self, node): - self.write(left) - for idx, item in enumerate(node.elts): - if idx: - self.write(', ') - self.visit(item) - self.write(right) - return visit - - visit_List = sequence_visit('[', ']') - visit_Set = sequence_visit('{', '}') - del sequence_visit - - def visit_Dict(self, node): - self.write('{') - for idx, (key, value) in enumerate(zip(node.keys, node.values)): - if idx: - self.write(', ') - self.visit(key) - self.write(': ') - self.visit(value) - self.write('}') - - def visit_BinOp(self, node): - self.write('(') - self.visit(node.left) - self.write(' %s ' % BINOP_SYMBOLS[type(node.op)]) - self.visit(node.right) - self.write(')') - - def visit_BoolOp(self, node): - self.write('(') - for idx, value in enumerate(node.values): - if idx: - self.write(' %s ' % BOOLOP_SYMBOLS[type(node.op)]) - self.visit(value) - self.write(')') - - def visit_Compare(self, node): - self.write('(') - self.visit(node.left) - for op, right in zip(node.ops, node.comparators): - self.write(' %s ' % CMPOP_SYMBOLS[type(op)]) - self.visit(right) - self.write(')') - - def visit_UnaryOp(self, node): - self.write('(') - op = UNARYOP_SYMBOLS[type(node.op)] - self.write(op) - if op == 'not': - self.write(' ') - self.visit(node.operand) - self.write(')') - - def visit_Subscript(self, node): - self.visit(node.value) - self.write('[') - self.visit(node.slice) - self.write(']') - - def visit_Slice(self, node): - if node.lower is not None: - self.visit(node.lower) - self.write(':') - if node.upper is not None: - self.visit(node.upper) - if node.step is not None: - self.write(':') - if not (isinstance(node.step, Name) and node.step.id == 'None'): - self.visit(node.step) - - def visit_ExtSlice(self, node): - for idx, item in node.dims: - if idx: - self.write(', ') - self.visit(item) - - def visit_Yield(self, node): - self.write('yield ') - self.visit(node.value) - - def visit_Lambda(self, node): - self.write('lambda ') - self.signature(node.args) - self.write(': ') - self.visit(node.body) - - def visit_Ellipsis(self, node): - self.write('Ellipsis') - - def generator_visit(left, right): - def visit(self, node): - self.write(left) - self.visit(node.elt) - for comprehension in node.generators: - self.visit(comprehension) - self.write(right) - return visit - - visit_ListComp = generator_visit('[', ']') - visit_GeneratorExp = generator_visit('(', ')') - visit_SetComp = generator_visit('{', '}') - del generator_visit - - def visit_DictComp(self, node): - self.write('{') - self.visit(node.key) - self.write(': ') - self.visit(node.value) - for comprehension in node.generators: - self.visit(comprehension) - self.write('}') - - def visit_IfExp(self, node): - self.visit(node.body) - self.write(' if ') - self.visit(node.test) - self.write(' else ') - self.visit(node.orelse) - - def visit_Starred(self, node): - self.write('*') - self.visit(node.value) - - def visit_Repr(self, node): - # XXX: python 2.6 only - self.write('`') - self.visit(node.value) - self.write('`') - - # Helper Nodes - - def visit_alias(self, node): - self.write(node.name) - if node.asname is not None: - self.write(' as ' + node.asname) - - def visit_comprehension(self, node): - self.write(' for ') - self.visit(node.target) - self.write(' in ') - self.visit(node.iter) - if node.ifs: - for if_ in node.ifs: - self.write(' if ') - self.visit(if_) - - def visit_excepthandler(self, node): - self.newline() - self.write('except') - if node.type is not None: - self.write(' ') - self.visit(node.type) - if node.name is not None: - self.write(' as ') - self.visit(node.name) - self.write(':') - self.body(node.body) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/ast.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/ast.py deleted file mode 100644 index 65fd84dfe15..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/ast.py +++ /dev/null @@ -1,178 +0,0 @@ -# mako/ast.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""utilities for analyzing expressions and blocks of Python -code, as well as generating Python from AST nodes""" - -from mako import exceptions, pyparser, compat -import re - -class PythonCode(object): - """represents information about a string containing Python code""" - def __init__(self, code, **exception_kwargs): - self.code = code - - # represents all identifiers which are assigned to at some point in - # the code - self.declared_identifiers = set() - - # represents all identifiers which are referenced before their - # assignment, if any - self.undeclared_identifiers = set() - - # note that an identifier can be in both the undeclared and declared - # lists. - - # using AST to parse instead of using code.co_varnames, - # code.co_names has several advantages: - # - we can locate an identifier as "undeclared" even if - # its declared later in the same block of code - # - AST is less likely to break with version changes - # (for example, the behavior of co_names changed a little bit - # in python version 2.5) - if isinstance(code, compat.string_types): - expr = pyparser.parse(code.lstrip(), "exec", **exception_kwargs) - else: - expr = code - - f = pyparser.FindIdentifiers(self, **exception_kwargs) - f.visit(expr) - -class ArgumentList(object): - """parses a fragment of code as a comma-separated list of expressions""" - def __init__(self, code, **exception_kwargs): - self.codeargs = [] - self.args = [] - self.declared_identifiers = set() - self.undeclared_identifiers = set() - if isinstance(code, compat.string_types): - if re.match(r"\S", code) and not re.match(r",\s*$", code): - # if theres text and no trailing comma, insure its parsed - # as a tuple by adding a trailing comma - code += "," - expr = pyparser.parse(code, "exec", **exception_kwargs) - else: - expr = code - - f = pyparser.FindTuple(self, PythonCode, **exception_kwargs) - f.visit(expr) - -class PythonFragment(PythonCode): - """extends PythonCode to provide identifier lookups in partial control - statements - - e.g. - for x in 5: - elif y==9: - except (MyException, e): - etc. - """ - def __init__(self, code, **exception_kwargs): - m = re.match(r'^(\w+)(?:\s+(.*?))?:\s*(#|$)', code.strip(), re.S) - if not m: - raise exceptions.CompileException( - "Fragment '%s' is not a partial control statement" % - code, **exception_kwargs) - if m.group(3): - code = code[:m.start(3)] - (keyword, expr) = m.group(1,2) - if keyword in ['for','if', 'while']: - code = code + "pass" - elif keyword == 'try': - code = code + "pass\nexcept:pass" - elif keyword == 'elif' or keyword == 'else': - code = "if False:pass\n" + code + "pass" - elif keyword == 'except': - code = "try:pass\n" + code + "pass" - elif keyword == 'with': - code = code + "pass" - else: - raise exceptions.CompileException( - "Unsupported control keyword: '%s'" % - keyword, **exception_kwargs) - super(PythonFragment, self).__init__(code, **exception_kwargs) - - -class FunctionDecl(object): - """function declaration""" - def __init__(self, code, allow_kwargs=True, **exception_kwargs): - self.code = code - expr = pyparser.parse(code, "exec", **exception_kwargs) - - f = pyparser.ParseFunc(self, **exception_kwargs) - f.visit(expr) - if not hasattr(self, 'funcname'): - raise exceptions.CompileException( - "Code '%s' is not a function declaration" % code, - **exception_kwargs) - if not allow_kwargs and self.kwargs: - raise exceptions.CompileException( - "'**%s' keyword argument not allowed here" % - self.kwargnames[-1], **exception_kwargs) - - def get_argument_expressions(self, as_call=False): - """Return the argument declarations of this FunctionDecl as a printable - list. - - By default the return value is appropriate for writing in a ``def``; - set `as_call` to true to build arguments to be passed to the function - instead (assuming locals with the same names as the arguments exist). - """ - - namedecls = [] - - # Build in reverse order, since defaults and slurpy args come last - argnames = self.argnames[::-1] - kwargnames = self.kwargnames[::-1] - defaults = self.defaults[::-1] - kwdefaults = self.kwdefaults[::-1] - - # Named arguments - if self.kwargs: - namedecls.append("**" + kwargnames.pop(0)) - - for name in kwargnames: - # Keyword-only arguments must always be used by name, so even if - # this is a call, print out `foo=foo` - if as_call: - namedecls.append("%s=%s" % (name, name)) - elif kwdefaults: - default = kwdefaults.pop(0) - if default is None: - # The AST always gives kwargs a default, since you can do - # `def foo(*, a=1, b, c=3)` - namedecls.append(name) - else: - namedecls.append("%s=%s" % ( - name, pyparser.ExpressionGenerator(default).value())) - else: - namedecls.append(name) - - # Positional arguments - if self.varargs: - namedecls.append("*" + argnames.pop(0)) - - for name in argnames: - if as_call or not defaults: - namedecls.append(name) - else: - default = defaults.pop(0) - namedecls.append("%s=%s" % ( - name, pyparser.ExpressionGenerator(default).value())) - - namedecls.reverse() - return namedecls - - @property - def allargnames(self): - return tuple(self.argnames) + tuple(self.kwargnames) - -class FunctionArgs(FunctionDecl): - """the argument portion of a function declaration""" - - def __init__(self, code, **kwargs): - super(FunctionArgs, self).__init__("def ANON(%s):pass" % code, - **kwargs) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/cache.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/cache.py deleted file mode 100644 index c405c5171d7..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/cache.py +++ /dev/null @@ -1,238 +0,0 @@ -# mako/cache.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -from mako import compat, util - -_cache_plugins = util.PluginLoader("mako.cache") - -register_plugin = _cache_plugins.register -register_plugin("beaker", "mako.ext.beaker_cache", "BeakerCacheImpl") - - -class Cache(object): - """Represents a data content cache made available to the module - space of a specific :class:`.Template` object. - - .. versionadded:: 0.6 - :class:`.Cache` by itself is mostly a - container for a :class:`.CacheImpl` object, which implements - a fixed API to provide caching services; specific subclasses exist to - implement different - caching strategies. Mako includes a backend that works with - the Beaker caching system. Beaker itself then supports - a number of backends (i.e. file, memory, memcached, etc.) - - The construction of a :class:`.Cache` is part of the mechanics - of a :class:`.Template`, and programmatic access to this - cache is typically via the :attr:`.Template.cache` attribute. - - """ - - impl = None - """Provide the :class:`.CacheImpl` in use by this :class:`.Cache`. - - This accessor allows a :class:`.CacheImpl` with additional - methods beyond that of :class:`.Cache` to be used programmatically. - - """ - - id = None - """Return the 'id' that identifies this cache. - - This is a value that should be globally unique to the - :class:`.Template` associated with this cache, and can - be used by a caching system to name a local container - for data specific to this template. - - """ - - starttime = None - """Epochal time value for when the owning :class:`.Template` was - first compiled. - - A cache implementation may wish to invalidate data earlier than - this timestamp; this has the effect of the cache for a specific - :class:`.Template` starting clean any time the :class:`.Template` - is recompiled, such as when the original template file changed on - the filesystem. - - """ - - def __init__(self, template, *args): - # check for a stale template calling the - # constructor - if isinstance(template, compat.string_types) and args: - return - self.template = template - self.id = template.module.__name__ - self.starttime = template.module._modified_time - self._def_regions = {} - self.impl = self._load_impl(self.template.cache_impl) - - def _load_impl(self, name): - return _cache_plugins.load(name)(self) - - def get_or_create(self, key, creation_function, **kw): - """Retrieve a value from the cache, using the given creation function - to generate a new value.""" - - return self._ctx_get_or_create(key, creation_function, None, **kw) - - def _ctx_get_or_create(self, key, creation_function, context, **kw): - """Retrieve a value from the cache, using the given creation function - to generate a new value.""" - - if not self.template.cache_enabled: - return creation_function() - - return self.impl.get_or_create( - key, - creation_function, - **self._get_cache_kw(kw, context)) - - def set(self, key, value, **kw): - """Place a value in the cache. - - :param key: the value's key. - :param value: the value. - :param \**kw: cache configuration arguments. - - """ - - self.impl.set(key, value, **self._get_cache_kw(kw, None)) - - put = set - """A synonym for :meth:`.Cache.set`. - - This is here for backwards compatibility. - - """ - - def get(self, key, **kw): - """Retrieve a value from the cache. - - :param key: the value's key. - :param \**kw: cache configuration arguments. The - backend is configured using these arguments upon first request. - Subsequent requests that use the same series of configuration - values will use that same backend. - - """ - return self.impl.get(key, **self._get_cache_kw(kw, None)) - - def invalidate(self, key, **kw): - """Invalidate a value in the cache. - - :param key: the value's key. - :param \**kw: cache configuration arguments. The - backend is configured using these arguments upon first request. - Subsequent requests that use the same series of configuration - values will use that same backend. - - """ - self.impl.invalidate(key, **self._get_cache_kw(kw, None)) - - def invalidate_body(self): - """Invalidate the cached content of the "body" method for this - template. - - """ - self.invalidate('render_body', __M_defname='render_body') - - def invalidate_def(self, name): - """Invalidate the cached content of a particular ``<%def>`` within this - template. - - """ - - self.invalidate('render_%s' % name, __M_defname='render_%s' % name) - - def invalidate_closure(self, name): - """Invalidate a nested ``<%def>`` within this template. - - Caching of nested defs is a blunt tool as there is no - management of scope -- nested defs that use cache tags - need to have names unique of all other nested defs in the - template, else their content will be overwritten by - each other. - - """ - - self.invalidate(name, __M_defname=name) - - def _get_cache_kw(self, kw, context): - defname = kw.pop('__M_defname', None) - if not defname: - tmpl_kw = self.template.cache_args.copy() - tmpl_kw.update(kw) - elif defname in self._def_regions: - tmpl_kw = self._def_regions[defname] - else: - tmpl_kw = self.template.cache_args.copy() - tmpl_kw.update(kw) - self._def_regions[defname] = tmpl_kw - if context and self.impl.pass_context: - tmpl_kw = tmpl_kw.copy() - tmpl_kw.setdefault('context', context) - return tmpl_kw - - -class CacheImpl(object): - """Provide a cache implementation for use by :class:`.Cache`.""" - - def __init__(self, cache): - self.cache = cache - - pass_context = False - """If ``True``, the :class:`.Context` will be passed to - :meth:`get_or_create <.CacheImpl.get_or_create>` as the name ``'context'``. - """ - - def get_or_create(self, key, creation_function, **kw): - """Retrieve a value from the cache, using the given creation function - to generate a new value. - - This function *must* return a value, either from - the cache, or via the given creation function. - If the creation function is called, the newly - created value should be populated into the cache - under the given key before being returned. - - :param key: the value's key. - :param creation_function: function that when called generates - a new value. - :param \**kw: cache configuration arguments. - - """ - raise NotImplementedError() - - def set(self, key, value, **kw): - """Place a value in the cache. - - :param key: the value's key. - :param value: the value. - :param \**kw: cache configuration arguments. - - """ - raise NotImplementedError() - - def get(self, key, **kw): - """Retrieve a value from the cache. - - :param key: the value's key. - :param \**kw: cache configuration arguments. - - """ - raise NotImplementedError() - - def invalidate(self, key, **kw): - """Invalidate a value in the cache. - - :param key: the value's key. - :param \**kw: cache configuration arguments. - - """ - raise NotImplementedError() diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/cmd.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/cmd.py deleted file mode 100644 index 1a9ca56637c..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/cmd.py +++ /dev/null @@ -1,62 +0,0 @@ -# mako/cmd.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php -from argparse import ArgumentParser -from os.path import isfile, dirname -import sys -from mako.template import Template -from mako.lookup import TemplateLookup -from mako import exceptions - -def varsplit(var): - if "=" not in var: - return (var, "") - return var.split("=", 1) - -def _exit(): - sys.stderr.write(exceptions.text_error_template().render()) - sys.exit(1) - -def cmdline(argv=None): - - parser = ArgumentParser("usage: %prog [FILENAME]") - parser.add_argument("--var", default=[], action="append", - help="variable (can be used multiple times, use name=value)") - parser.add_argument("--template-dir", default=[], action="append", - help="Directory to use for template lookup (multiple " - "directories may be provided). If not given then if the " - "template is read from stdin, the value defaults to be " - "the current directory, otherwise it defaults to be the " - "parent directory of the file provided.") - parser.add_argument('input', nargs='?', default='-') - - options = parser.parse_args(argv) - if options.input == '-': - lookup_dirs = options.template_dir or ["."] - lookup = TemplateLookup(lookup_dirs) - try: - template = Template(sys.stdin.read(), lookup=lookup) - except: - _exit() - else: - filename = options.input - if not isfile(filename): - raise SystemExit("error: can't find %s" % filename) - lookup_dirs = options.template_dir or [dirname(filename)] - lookup = TemplateLookup(lookup_dirs) - try: - template = Template(filename=filename, lookup=lookup) - except: - _exit() - - kw = dict([varsplit(var) for var in options.var]) - try: - print(template.render(**kw)) - except: - _exit() - - -if __name__ == "__main__": - cmdline() diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/codegen.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/codegen.py deleted file mode 100644 index 4b0bda86731..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/codegen.py +++ /dev/null @@ -1,1237 +0,0 @@ -# mako/codegen.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""provides functionality for rendering a parsetree constructing into module -source code.""" - -import time -import re -from mako.pygen import PythonPrinter -from mako import util, ast, parsetree, filters, exceptions -from mako import compat - - -MAGIC_NUMBER = 10 - -# names which are hardwired into the -# template and are not accessed via the -# context itself -RESERVED_NAMES = set(['context', 'loop', 'UNDEFINED']) - -def compile(node, - uri, - filename=None, - default_filters=None, - buffer_filters=None, - imports=None, - future_imports=None, - source_encoding=None, - generate_magic_comment=True, - disable_unicode=False, - strict_undefined=False, - enable_loop=True, - reserved_names=frozenset()): - - """Generate module source code given a parsetree node, - uri, and optional source filename""" - - # if on Py2K, push the "source_encoding" string to be - # a bytestring itself, as we will be embedding it into - # the generated source and we don't want to coerce the - # result into a unicode object, in "disable_unicode" mode - if not compat.py3k and isinstance(source_encoding, compat.text_type): - source_encoding = source_encoding.encode(source_encoding) - - - buf = util.FastEncodingBuffer() - - printer = PythonPrinter(buf) - _GenerateRenderMethod(printer, - _CompileContext(uri, - filename, - default_filters, - buffer_filters, - imports, - future_imports, - source_encoding, - generate_magic_comment, - disable_unicode, - strict_undefined, - enable_loop, - reserved_names), - node) - return buf.getvalue() - -class _CompileContext(object): - def __init__(self, - uri, - filename, - default_filters, - buffer_filters, - imports, - future_imports, - source_encoding, - generate_magic_comment, - disable_unicode, - strict_undefined, - enable_loop, - reserved_names): - self.uri = uri - self.filename = filename - self.default_filters = default_filters - self.buffer_filters = buffer_filters - self.imports = imports - self.future_imports = future_imports - self.source_encoding = source_encoding - self.generate_magic_comment = generate_magic_comment - self.disable_unicode = disable_unicode - self.strict_undefined = strict_undefined - self.enable_loop = enable_loop - self.reserved_names = reserved_names - -class _GenerateRenderMethod(object): - """A template visitor object which generates the - full module source for a template. - - """ - def __init__(self, printer, compiler, node): - self.printer = printer - self.compiler = compiler - self.node = node - self.identifier_stack = [None] - self.in_def = isinstance(node, (parsetree.DefTag, parsetree.BlockTag)) - - if self.in_def: - name = "render_%s" % node.funcname - args = node.get_argument_expressions() - filtered = len(node.filter_args.args) > 0 - buffered = eval(node.attributes.get('buffered', 'False')) - cached = eval(node.attributes.get('cached', 'False')) - defs = None - pagetag = None - if node.is_block and not node.is_anonymous: - args += ['**pageargs'] - else: - defs = self.write_toplevel() - pagetag = self.compiler.pagetag - name = "render_body" - if pagetag is not None: - args = pagetag.body_decl.get_argument_expressions() - if not pagetag.body_decl.kwargs: - args += ['**pageargs'] - cached = eval(pagetag.attributes.get('cached', 'False')) - self.compiler.enable_loop = self.compiler.enable_loop or eval( - pagetag.attributes.get( - 'enable_loop', 'False') - ) - else: - args = ['**pageargs'] - cached = False - buffered = filtered = False - if args is None: - args = ['context'] - else: - args = [a for a in ['context'] + args] - - self.write_render_callable( - pagetag or node, - name, args, - buffered, filtered, cached) - - if defs is not None: - for node in defs: - _GenerateRenderMethod(printer, compiler, node) - - if not self.in_def: - self.write_metadata_struct() - - def write_metadata_struct(self): - self.printer.source_map[self.printer.lineno] = \ - max(self.printer.source_map) - struct = { - "filename": self.compiler.filename, - "uri": self.compiler.uri, - "source_encoding": self.compiler.source_encoding, - "line_map": self.printer.source_map, - } - self.printer.writelines( - '"""', - '__M_BEGIN_METADATA', - compat.json.dumps(struct), - '__M_END_METADATA\n' - '"""' - ) - - @property - def identifiers(self): - return self.identifier_stack[-1] - - def write_toplevel(self): - """Traverse a template structure for module-level directives and - generate the start of module-level code. - - """ - inherit = [] - namespaces = {} - module_code = [] - - self.compiler.pagetag = None - - class FindTopLevel(object): - def visitInheritTag(s, node): - inherit.append(node) - def visitNamespaceTag(s, node): - namespaces[node.name] = node - def visitPageTag(s, node): - self.compiler.pagetag = node - def visitCode(s, node): - if node.ismodule: - module_code.append(node) - - f = FindTopLevel() - for n in self.node.nodes: - n.accept_visitor(f) - - self.compiler.namespaces = namespaces - - module_ident = set() - for n in module_code: - module_ident = module_ident.union(n.declared_identifiers()) - - module_identifiers = _Identifiers(self.compiler) - module_identifiers.declared = module_ident - - # module-level names, python code - if self.compiler.generate_magic_comment and \ - self.compiler.source_encoding: - self.printer.writeline("# -*- coding:%s -*-" % - self.compiler.source_encoding) - - if self.compiler.future_imports: - self.printer.writeline("from __future__ import %s" % - (", ".join(self.compiler.future_imports),)) - self.printer.writeline("from mako import runtime, filters, cache") - self.printer.writeline("UNDEFINED = runtime.UNDEFINED") - self.printer.writeline("__M_dict_builtin = dict") - self.printer.writeline("__M_locals_builtin = locals") - self.printer.writeline("_magic_number = %r" % MAGIC_NUMBER) - self.printer.writeline("_modified_time = %r" % time.time()) - self.printer.writeline("_enable_loop = %r" % self.compiler.enable_loop) - self.printer.writeline( - "_template_filename = %r" % self.compiler.filename) - self.printer.writeline("_template_uri = %r" % self.compiler.uri) - self.printer.writeline( - "_source_encoding = %r" % self.compiler.source_encoding) - if self.compiler.imports: - buf = '' - for imp in self.compiler.imports: - buf += imp + "\n" - self.printer.writeline(imp) - impcode = ast.PythonCode( - buf, - source='', lineno=0, - pos=0, - filename='template defined imports') - else: - impcode = None - - main_identifiers = module_identifiers.branch(self.node) - module_identifiers.topleveldefs = \ - module_identifiers.topleveldefs.\ - union(main_identifiers.topleveldefs) - module_identifiers.declared.add("UNDEFINED") - if impcode: - module_identifiers.declared.update(impcode.declared_identifiers) - - self.compiler.identifiers = module_identifiers - self.printer.writeline("_exports = %r" % - [n.name for n in - main_identifiers.topleveldefs.values()] - ) - self.printer.write_blanks(2) - - if len(module_code): - self.write_module_code(module_code) - - if len(inherit): - self.write_namespaces(namespaces) - self.write_inherit(inherit[-1]) - elif len(namespaces): - self.write_namespaces(namespaces) - - return list(main_identifiers.topleveldefs.values()) - - def write_render_callable(self, node, name, args, buffered, filtered, - cached): - """write a top-level render callable. - - this could be the main render() method or that of a top-level def.""" - - if self.in_def: - decorator = node.decorator - if decorator: - self.printer.writeline( - "@runtime._decorate_toplevel(%s)" % decorator) - - self.printer.start_source(node.lineno) - self.printer.writelines( - "def %s(%s):" % (name, ','.join(args)), - # push new frame, assign current frame to __M_caller - "__M_caller = context.caller_stack._push_frame()", - "try:" - ) - if buffered or filtered or cached: - self.printer.writeline("context._push_buffer()") - - self.identifier_stack.append( - self.compiler.identifiers.branch(self.node)) - if (not self.in_def or self.node.is_block) and '**pageargs' in args: - self.identifier_stack[-1].argument_declared.add('pageargs') - - if not self.in_def and ( - len(self.identifiers.locally_assigned) > 0 or - len(self.identifiers.argument_declared) > 0 - ): - self.printer.writeline("__M_locals = __M_dict_builtin(%s)" % - ','.join([ - "%s=%s" % (x, x) for x in - self.identifiers.argument_declared - ])) - - self.write_variable_declares(self.identifiers, toplevel=True) - - for n in self.node.nodes: - n.accept_visitor(self) - - self.write_def_finish(self.node, buffered, filtered, cached) - self.printer.writeline(None) - self.printer.write_blanks(2) - if cached: - self.write_cache_decorator( - node, name, - args, buffered, - self.identifiers, toplevel=True) - - def write_module_code(self, module_code): - """write module-level template code, i.e. that which - is enclosed in <%! %> tags in the template.""" - for n in module_code: - self.printer.start_source(n.lineno) - self.printer.write_indented_block(n.text) - - def write_inherit(self, node): - """write the module-level inheritance-determination callable.""" - - self.printer.writelines( - "def _mako_inherit(template, context):", - "_mako_generate_namespaces(context)", - "return runtime._inherit_from(context, %s, _template_uri)" % - (node.parsed_attributes['file']), - None - ) - - def write_namespaces(self, namespaces): - """write the module-level namespace-generating callable.""" - self.printer.writelines( - "def _mako_get_namespace(context, name):", - "try:", - "return context.namespaces[(__name__, name)]", - "except KeyError:", - "_mako_generate_namespaces(context)", - "return context.namespaces[(__name__, name)]", - None, None - ) - self.printer.writeline("def _mako_generate_namespaces(context):") - - - for node in namespaces.values(): - if 'import' in node.attributes: - self.compiler.has_ns_imports = True - self.printer.start_source(node.lineno) - if len(node.nodes): - self.printer.writeline("def make_namespace():") - export = [] - identifiers = self.compiler.identifiers.branch(node) - self.in_def = True - class NSDefVisitor(object): - def visitDefTag(s, node): - s.visitDefOrBase(node) - - def visitBlockTag(s, node): - s.visitDefOrBase(node) - - def visitDefOrBase(s, node): - if node.is_anonymous: - raise exceptions.CompileException( - "Can't put anonymous blocks inside " - "<%namespace>", - **node.exception_kwargs - ) - self.write_inline_def(node, identifiers, nested=False) - export.append(node.funcname) - vis = NSDefVisitor() - for n in node.nodes: - n.accept_visitor(vis) - self.printer.writeline("return [%s]" % (','.join(export))) - self.printer.writeline(None) - self.in_def = False - callable_name = "make_namespace()" - else: - callable_name = "None" - - if 'file' in node.parsed_attributes: - self.printer.writeline( - "ns = runtime.TemplateNamespace(%r," - " context._clean_inheritance_tokens()," - " templateuri=%s, callables=%s, " - " calling_uri=_template_uri)" % - ( - node.name, - node.parsed_attributes.get('file', 'None'), - callable_name, - ) - ) - elif 'module' in node.parsed_attributes: - self.printer.writeline( - "ns = runtime.ModuleNamespace(%r," - " context._clean_inheritance_tokens()," - " callables=%s, calling_uri=_template_uri," - " module=%s)" % - ( - node.name, - callable_name, - node.parsed_attributes.get( - 'module', 'None') - ) - ) - else: - self.printer.writeline( - "ns = runtime.Namespace(%r," - " context._clean_inheritance_tokens()," - " callables=%s, calling_uri=_template_uri)" % - ( - node.name, - callable_name, - ) - ) - if eval(node.attributes.get('inheritable', "False")): - self.printer.writeline("context['self'].%s = ns" % (node.name)) - - self.printer.writeline( - "context.namespaces[(__name__, %s)] = ns" % repr(node.name)) - self.printer.write_blanks(1) - if not len(namespaces): - self.printer.writeline("pass") - self.printer.writeline(None) - - def write_variable_declares(self, identifiers, toplevel=False, limit=None): - """write variable declarations at the top of a function. - - the variable declarations are in the form of callable - definitions for defs and/or name lookup within the - function's context argument. the names declared are based - on the names that are referenced in the function body, - which don't otherwise have any explicit assignment - operation. names that are assigned within the body are - assumed to be locally-scoped variables and are not - separately declared. - - for def callable definitions, if the def is a top-level - callable then a 'stub' callable is generated which wraps - the current Context into a closure. if the def is not - top-level, it is fully rendered as a local closure. - - """ - - # collection of all defs available to us in this scope - comp_idents = dict([(c.funcname, c) for c in identifiers.defs]) - to_write = set() - - # write "context.get()" for all variables we are going to - # need that arent in the namespace yet - to_write = to_write.union(identifiers.undeclared) - - # write closure functions for closures that we define - # right here - to_write = to_write.union( - [c.funcname for c in identifiers.closuredefs.values()]) - - # remove identifiers that are declared in the argument - # signature of the callable - to_write = to_write.difference(identifiers.argument_declared) - - # remove identifiers that we are going to assign to. - # in this way we mimic Python's behavior, - # i.e. assignment to a variable within a block - # means that variable is now a "locally declared" var, - # which cannot be referenced beforehand. - to_write = to_write.difference(identifiers.locally_declared) - - if self.compiler.enable_loop: - has_loop = "loop" in to_write - to_write.discard("loop") - else: - has_loop = False - - # if a limiting set was sent, constraint to those items in that list - # (this is used for the caching decorator) - if limit is not None: - to_write = to_write.intersection(limit) - - if toplevel and getattr(self.compiler, 'has_ns_imports', False): - self.printer.writeline("_import_ns = {}") - self.compiler.has_imports = True - for ident, ns in self.compiler.namespaces.items(): - if 'import' in ns.attributes: - self.printer.writeline( - "_mako_get_namespace(context, %r)." - "_populate(_import_ns, %r)" % - ( - ident, - re.split(r'\s*,\s*', ns.attributes['import']) - )) - - if has_loop: - self.printer.writeline( - 'loop = __M_loop = runtime.LoopStack()' - ) - - for ident in to_write: - if ident in comp_idents: - comp = comp_idents[ident] - if comp.is_block: - if not comp.is_anonymous: - self.write_def_decl(comp, identifiers) - else: - self.write_inline_def(comp, identifiers, nested=True) - else: - if comp.is_root(): - self.write_def_decl(comp, identifiers) - else: - self.write_inline_def(comp, identifiers, nested=True) - - elif ident in self.compiler.namespaces: - self.printer.writeline( - "%s = _mako_get_namespace(context, %r)" % - (ident, ident) - ) - else: - if getattr(self.compiler, 'has_ns_imports', False): - if self.compiler.strict_undefined: - self.printer.writelines( - "%s = _import_ns.get(%r, UNDEFINED)" % - (ident, ident), - "if %s is UNDEFINED:" % ident, - "try:", - "%s = context[%r]" % (ident, ident), - "except KeyError:", - "raise NameError(\"'%s' is not defined\")" % - ident, - None, None - ) - else: - self.printer.writeline( - "%s = _import_ns.get(%r, context.get(%r, UNDEFINED))" % - (ident, ident, ident)) - else: - if self.compiler.strict_undefined: - self.printer.writelines( - "try:", - "%s = context[%r]" % (ident, ident), - "except KeyError:", - "raise NameError(\"'%s' is not defined\")" % - ident, - None - ) - else: - self.printer.writeline( - "%s = context.get(%r, UNDEFINED)" % (ident, ident) - ) - - self.printer.writeline("__M_writer = context.writer()") - - def write_def_decl(self, node, identifiers): - """write a locally-available callable referencing a top-level def""" - funcname = node.funcname - namedecls = node.get_argument_expressions() - nameargs = node.get_argument_expressions(as_call=True) - - if not self.in_def and ( - len(self.identifiers.locally_assigned) > 0 or - len(self.identifiers.argument_declared) > 0): - nameargs.insert(0, 'context._locals(__M_locals)') - else: - nameargs.insert(0, 'context') - self.printer.writeline("def %s(%s):" % (funcname, ",".join(namedecls))) - self.printer.writeline( - "return render_%s(%s)" % (funcname, ",".join(nameargs))) - self.printer.writeline(None) - - def write_inline_def(self, node, identifiers, nested): - """write a locally-available def callable inside an enclosing def.""" - - namedecls = node.get_argument_expressions() - - decorator = node.decorator - if decorator: - self.printer.writeline( - "@runtime._decorate_inline(context, %s)" % decorator) - self.printer.writeline( - "def %s(%s):" % (node.funcname, ",".join(namedecls))) - filtered = len(node.filter_args.args) > 0 - buffered = eval(node.attributes.get('buffered', 'False')) - cached = eval(node.attributes.get('cached', 'False')) - self.printer.writelines( - # push new frame, assign current frame to __M_caller - "__M_caller = context.caller_stack._push_frame()", - "try:" - ) - if buffered or filtered or cached: - self.printer.writelines( - "context._push_buffer()", - ) - - identifiers = identifiers.branch(node, nested=nested) - - self.write_variable_declares(identifiers) - - self.identifier_stack.append(identifiers) - for n in node.nodes: - n.accept_visitor(self) - self.identifier_stack.pop() - - self.write_def_finish(node, buffered, filtered, cached) - self.printer.writeline(None) - if cached: - self.write_cache_decorator(node, node.funcname, - namedecls, False, identifiers, - inline=True, toplevel=False) - - def write_def_finish(self, node, buffered, filtered, cached, - callstack=True): - """write the end section of a rendering function, either outermost or - inline. - - this takes into account if the rendering function was filtered, - buffered, etc. and closes the corresponding try: block if any, and - writes code to retrieve captured content, apply filters, send proper - return value.""" - - if not buffered and not cached and not filtered: - self.printer.writeline("return ''") - if callstack: - self.printer.writelines( - "finally:", - "context.caller_stack._pop_frame()", - None - ) - - if buffered or filtered or cached: - if buffered or cached: - # in a caching scenario, don't try to get a writer - # from the context after popping; assume the caching - # implemenation might be using a context with no - # extra buffers - self.printer.writelines( - "finally:", - "__M_buf = context._pop_buffer()" - ) - else: - self.printer.writelines( - "finally:", - "__M_buf, __M_writer = context._pop_buffer_and_writer()" - ) - - if callstack: - self.printer.writeline("context.caller_stack._pop_frame()") - - s = "__M_buf.getvalue()" - if filtered: - s = self.create_filter_callable(node.filter_args.args, s, - False) - self.printer.writeline(None) - if buffered and not cached: - s = self.create_filter_callable(self.compiler.buffer_filters, - s, False) - if buffered or cached: - self.printer.writeline("return %s" % s) - else: - self.printer.writelines( - "__M_writer(%s)" % s, - "return ''" - ) - - def write_cache_decorator(self, node_or_pagetag, name, - args, buffered, identifiers, - inline=False, toplevel=False): - """write a post-function decorator to replace a rendering - callable with a cached version of itself.""" - - self.printer.writeline("__M_%s = %s" % (name, name)) - cachekey = node_or_pagetag.parsed_attributes.get('cache_key', - repr(name)) - - cache_args = {} - if self.compiler.pagetag is not None: - cache_args.update( - ( - pa[6:], - self.compiler.pagetag.parsed_attributes[pa] - ) - for pa in self.compiler.pagetag.parsed_attributes - if pa.startswith('cache_') and pa != 'cache_key' - ) - cache_args.update( - ( - pa[6:], - node_or_pagetag.parsed_attributes[pa] - ) for pa in node_or_pagetag.parsed_attributes - if pa.startswith('cache_') and pa != 'cache_key' - ) - if 'timeout' in cache_args: - cache_args['timeout'] = int(eval(cache_args['timeout'])) - - self.printer.writeline("def %s(%s):" % (name, ','.join(args))) - - # form "arg1, arg2, arg3=arg3, arg4=arg4", etc. - pass_args = [ - "%s=%s" % ((a.split('=')[0],) * 2) if '=' in a else a - for a in args - ] - - self.write_variable_declares( - identifiers, - toplevel=toplevel, - limit=node_or_pagetag.undeclared_identifiers() - ) - if buffered: - s = "context.get('local')."\ - "cache._ctx_get_or_create("\ - "%s, lambda:__M_%s(%s), context, %s__M_defname=%r)" % ( - cachekey, name, ','.join(pass_args), - ''.join(["%s=%s, " % (k, v) - for k, v in cache_args.items()]), - name - ) - # apply buffer_filters - s = self.create_filter_callable(self.compiler.buffer_filters, s, - False) - self.printer.writelines("return " + s, None) - else: - self.printer.writelines( - "__M_writer(context.get('local')." - "cache._ctx_get_or_create(" - "%s, lambda:__M_%s(%s), context, %s__M_defname=%r))" % - ( - cachekey, name, ','.join(pass_args), - ''.join(["%s=%s, " % (k, v) - for k, v in cache_args.items()]), - name, - ), - "return ''", - None - ) - - def create_filter_callable(self, args, target, is_expression): - """write a filter-applying expression based on the filters - present in the given filter names, adjusting for the global - 'default' filter aliases as needed.""" - - def locate_encode(name): - if re.match(r'decode\..+', name): - return "filters." + name - elif self.compiler.disable_unicode: - return filters.NON_UNICODE_ESCAPES.get(name, name) - else: - return filters.DEFAULT_ESCAPES.get(name, name) - - if 'n' not in args: - if is_expression: - if self.compiler.pagetag: - args = self.compiler.pagetag.filter_args.args + args - if self.compiler.default_filters: - args = self.compiler.default_filters + args - for e in args: - # if filter given as a function, get just the identifier portion - if e == 'n': - continue - m = re.match(r'(.+?)(\(.*\))', e) - if m: - ident, fargs = m.group(1, 2) - f = locate_encode(ident) - e = f + fargs - else: - e = locate_encode(e) - assert e is not None - target = "%s(%s)" % (e, target) - return target - - def visitExpression(self, node): - self.printer.start_source(node.lineno) - if len(node.escapes) or \ - ( - self.compiler.pagetag is not None and - len(self.compiler.pagetag.filter_args.args) - ) or \ - len(self.compiler.default_filters): - - s = self.create_filter_callable(node.escapes_code.args, - "%s" % node.text, True) - self.printer.writeline("__M_writer(%s)" % s) - else: - self.printer.writeline("__M_writer(%s)" % node.text) - - def visitControlLine(self, node): - if node.isend: - self.printer.writeline(None) - if node.has_loop_context: - self.printer.writeline('finally:') - self.printer.writeline("loop = __M_loop._exit()") - self.printer.writeline(None) - else: - self.printer.start_source(node.lineno) - if self.compiler.enable_loop and node.keyword == 'for': - text = mangle_mako_loop(node, self.printer) - else: - text = node.text - self.printer.writeline(text) - children = node.get_children() - # this covers the three situations where we want to insert a pass: - # 1) a ternary control line with no children, - # 2) a primary control line with nothing but its own ternary - # and end control lines, and - # 3) any control line with no content other than comments - if not children or ( - compat.all(isinstance(c, (parsetree.Comment, - parsetree.ControlLine)) - for c in children) and - compat.all((node.is_ternary(c.keyword) or c.isend) - for c in children - if isinstance(c, parsetree.ControlLine))): - self.printer.writeline("pass") - - def visitText(self, node): - self.printer.start_source(node.lineno) - self.printer.writeline("__M_writer(%s)" % repr(node.content)) - - def visitTextTag(self, node): - filtered = len(node.filter_args.args) > 0 - if filtered: - self.printer.writelines( - "__M_writer = context._push_writer()", - "try:", - ) - for n in node.nodes: - n.accept_visitor(self) - if filtered: - self.printer.writelines( - "finally:", - "__M_buf, __M_writer = context._pop_buffer_and_writer()", - "__M_writer(%s)" % - self.create_filter_callable( - node.filter_args.args, - "__M_buf.getvalue()", - False), - None - ) - - def visitCode(self, node): - if not node.ismodule: - self.printer.start_source(node.lineno) - self.printer.write_indented_block(node.text) - - if not self.in_def and len(self.identifiers.locally_assigned) > 0: - # if we are the "template" def, fudge locally - # declared/modified variables into the "__M_locals" dictionary, - # which is used for def calls within the same template, - # to simulate "enclosing scope" - self.printer.writeline( - '__M_locals_builtin_stored = __M_locals_builtin()') - self.printer.writeline( - '__M_locals.update(__M_dict_builtin([(__M_key,' - ' __M_locals_builtin_stored[__M_key]) for __M_key in' - ' [%s] if __M_key in __M_locals_builtin_stored]))' % - ','.join([repr(x) for x in node.declared_identifiers()])) - - def visitIncludeTag(self, node): - self.printer.start_source(node.lineno) - args = node.attributes.get('args') - if args: - self.printer.writeline( - "runtime._include_file(context, %s, _template_uri, %s)" % - (node.parsed_attributes['file'], args)) - else: - self.printer.writeline( - "runtime._include_file(context, %s, _template_uri)" % - (node.parsed_attributes['file'])) - - def visitNamespaceTag(self, node): - pass - - def visitDefTag(self, node): - pass - - def visitBlockTag(self, node): - if node.is_anonymous: - self.printer.writeline("%s()" % node.funcname) - else: - nameargs = node.get_argument_expressions(as_call=True) - nameargs += ['**pageargs'] - self.printer.writeline("if 'parent' not in context._data or " - "not hasattr(context._data['parent'], '%s'):" - % node.funcname) - self.printer.writeline( - "context['self'].%s(%s)" % (node.funcname, ",".join(nameargs))) - self.printer.writeline("\n") - - def visitCallNamespaceTag(self, node): - # TODO: we can put namespace-specific checks here, such - # as ensure the given namespace will be imported, - # pre-import the namespace, etc. - self.visitCallTag(node) - - def visitCallTag(self, node): - self.printer.writeline("def ccall(caller):") - export = ['body'] - callable_identifiers = self.identifiers.branch(node, nested=True) - body_identifiers = callable_identifiers.branch(node, nested=False) - # we want the 'caller' passed to ccall to be used - # for the body() function, but for other non-body() - # <%def>s within <%call> we want the current caller - # off the call stack (if any) - body_identifiers.add_declared('caller') - - self.identifier_stack.append(body_identifiers) - class DefVisitor(object): - def visitDefTag(s, node): - s.visitDefOrBase(node) - - def visitBlockTag(s, node): - s.visitDefOrBase(node) - - def visitDefOrBase(s, node): - self.write_inline_def(node, callable_identifiers, nested=False) - if not node.is_anonymous: - export.append(node.funcname) - # remove defs that are within the <%call> from the - # "closuredefs" defined in the body, so they dont render twice - if node.funcname in body_identifiers.closuredefs: - del body_identifiers.closuredefs[node.funcname] - - vis = DefVisitor() - for n in node.nodes: - n.accept_visitor(vis) - self.identifier_stack.pop() - - bodyargs = node.body_decl.get_argument_expressions() - self.printer.writeline("def body(%s):" % ','.join(bodyargs)) - - # TODO: figure out best way to specify - # buffering/nonbuffering (at call time would be better) - buffered = False - if buffered: - self.printer.writelines( - "context._push_buffer()", - "try:" - ) - self.write_variable_declares(body_identifiers) - self.identifier_stack.append(body_identifiers) - - for n in node.nodes: - n.accept_visitor(self) - self.identifier_stack.pop() - - self.write_def_finish(node, buffered, False, False, callstack=False) - self.printer.writelines( - None, - "return [%s]" % (','.join(export)), - None - ) - - self.printer.writelines( - # push on caller for nested call - "context.caller_stack.nextcaller = " - "runtime.Namespace('caller', context, " - "callables=ccall(__M_caller))", - "try:") - self.printer.start_source(node.lineno) - self.printer.writelines( - "__M_writer(%s)" % self.create_filter_callable( - [], node.expression, True), - "finally:", - "context.caller_stack.nextcaller = None", - None - ) - -class _Identifiers(object): - """tracks the status of identifier names as template code is rendered.""" - - def __init__(self, compiler, node=None, parent=None, nested=False): - if parent is not None: - # if we are the branch created in write_namespaces(), - # we don't share any context from the main body(). - if isinstance(node, parsetree.NamespaceTag): - self.declared = set() - self.topleveldefs = util.SetLikeDict() - else: - # things that have already been declared - # in an enclosing namespace (i.e. names we can just use) - self.declared = set(parent.declared).\ - union([c.name for c in parent.closuredefs.values()]).\ - union(parent.locally_declared).\ - union(parent.argument_declared) - - # if these identifiers correspond to a "nested" - # scope, it means whatever the parent identifiers - # had as undeclared will have been declared by that parent, - # and therefore we have them in our scope. - if nested: - self.declared = self.declared.union(parent.undeclared) - - # top level defs that are available - self.topleveldefs = util.SetLikeDict(**parent.topleveldefs) - else: - self.declared = set() - self.topleveldefs = util.SetLikeDict() - - self.compiler = compiler - - # things within this level that are referenced before they - # are declared (e.g. assigned to) - self.undeclared = set() - - # things that are declared locally. some of these things - # could be in the "undeclared" list as well if they are - # referenced before declared - self.locally_declared = set() - - # assignments made in explicit python blocks. - # these will be propagated to - # the context of local def calls. - self.locally_assigned = set() - - # things that are declared in the argument - # signature of the def callable - self.argument_declared = set() - - # closure defs that are defined in this level - self.closuredefs = util.SetLikeDict() - - self.node = node - - if node is not None: - node.accept_visitor(self) - - illegal_names = self.compiler.reserved_names.intersection( - self.locally_declared) - if illegal_names: - raise exceptions.NameConflictError( - "Reserved words declared in template: %s" % - ", ".join(illegal_names)) - - - def branch(self, node, **kwargs): - """create a new Identifiers for a new Node, with - this Identifiers as the parent.""" - - return _Identifiers(self.compiler, node, self, **kwargs) - - @property - def defs(self): - return set(self.topleveldefs.union(self.closuredefs).values()) - - def __repr__(self): - return "Identifiers(declared=%r, locally_declared=%r, "\ - "undeclared=%r, topleveldefs=%r, closuredefs=%r, "\ - "argumentdeclared=%r)" %\ - ( - list(self.declared), - list(self.locally_declared), - list(self.undeclared), - [c.name for c in self.topleveldefs.values()], - [c.name for c in self.closuredefs.values()], - self.argument_declared) - - def check_declared(self, node): - """update the state of this Identifiers with the undeclared - and declared identifiers of the given node.""" - - for ident in node.undeclared_identifiers(): - if ident != 'context' and\ - ident not in self.declared.union(self.locally_declared): - self.undeclared.add(ident) - for ident in node.declared_identifiers(): - self.locally_declared.add(ident) - - def add_declared(self, ident): - self.declared.add(ident) - if ident in self.undeclared: - self.undeclared.remove(ident) - - def visitExpression(self, node): - self.check_declared(node) - - def visitControlLine(self, node): - self.check_declared(node) - - def visitCode(self, node): - if not node.ismodule: - self.check_declared(node) - self.locally_assigned = self.locally_assigned.union( - node.declared_identifiers()) - - def visitNamespaceTag(self, node): - # only traverse into the sub-elements of a - # <%namespace> tag if we are the branch created in - # write_namespaces() - if self.node is node: - for n in node.nodes: - n.accept_visitor(self) - - def _check_name_exists(self, collection, node): - existing = collection.get(node.funcname) - collection[node.funcname] = node - if existing is not None and \ - existing is not node and \ - (node.is_block or existing.is_block): - raise exceptions.CompileException( - "%%def or %%block named '%s' already " - "exists in this template." % - node.funcname, **node.exception_kwargs) - - def visitDefTag(self, node): - if node.is_root() and not node.is_anonymous: - self._check_name_exists(self.topleveldefs, node) - elif node is not self.node: - self._check_name_exists(self.closuredefs, node) - - for ident in node.undeclared_identifiers(): - if ident != 'context' and \ - ident not in self.declared.union(self.locally_declared): - self.undeclared.add(ident) - - # visit defs only one level deep - if node is self.node: - for ident in node.declared_identifiers(): - self.argument_declared.add(ident) - - for n in node.nodes: - n.accept_visitor(self) - - def visitBlockTag(self, node): - if node is not self.node and not node.is_anonymous: - - if isinstance(self.node, parsetree.DefTag): - raise exceptions.CompileException( - "Named block '%s' not allowed inside of def '%s'" - % (node.name, self.node.name), **node.exception_kwargs) - elif isinstance(self.node, - (parsetree.CallTag, parsetree.CallNamespaceTag)): - raise exceptions.CompileException( - "Named block '%s' not allowed inside of <%%call> tag" - % (node.name, ), **node.exception_kwargs) - - for ident in node.undeclared_identifiers(): - if ident != 'context' and \ - ident not in self.declared.union(self.locally_declared): - self.undeclared.add(ident) - - if not node.is_anonymous: - self._check_name_exists(self.topleveldefs, node) - self.undeclared.add(node.funcname) - elif node is not self.node: - self._check_name_exists(self.closuredefs, node) - for ident in node.declared_identifiers(): - self.argument_declared.add(ident) - for n in node.nodes: - n.accept_visitor(self) - - def visitTextTag(self, node): - for ident in node.undeclared_identifiers(): - if ident != 'context' and \ - ident not in self.declared.union(self.locally_declared): - self.undeclared.add(ident) - - def visitIncludeTag(self, node): - self.check_declared(node) - - def visitPageTag(self, node): - for ident in node.declared_identifiers(): - self.argument_declared.add(ident) - self.check_declared(node) - - def visitCallNamespaceTag(self, node): - self.visitCallTag(node) - - def visitCallTag(self, node): - if node is self.node: - for ident in node.undeclared_identifiers(): - if ident != 'context' and \ - ident not in self.declared.union( - self.locally_declared): - self.undeclared.add(ident) - for ident in node.declared_identifiers(): - self.argument_declared.add(ident) - for n in node.nodes: - n.accept_visitor(self) - else: - for ident in node.undeclared_identifiers(): - if ident != 'context' and \ - ident not in self.declared.union( - self.locally_declared): - self.undeclared.add(ident) - - -_FOR_LOOP = re.compile( - r'^for\s+((?:\(?)\s*[A-Za-z_][A-Za-z_0-9]*' - r'(?:\s*,\s*(?:[A-Za-z_][A-Za-z0-9_]*),??)*\s*(?:\)?))\s+in\s+(.*):' -) - -def mangle_mako_loop(node, printer): - """converts a for loop into a context manager wrapped around a for loop - when access to the `loop` variable has been detected in the for loop body - """ - loop_variable = LoopVariable() - node.accept_visitor(loop_variable) - if loop_variable.detected: - node.nodes[-1].has_loop_context = True - match = _FOR_LOOP.match(node.text) - if match: - printer.writelines( - 'loop = __M_loop._enter(%s)' % match.group(2), - 'try:' - #'with __M_loop(%s) as loop:' % match.group(2) - ) - text = 'for %s in loop:' % match.group(1) - else: - raise SyntaxError("Couldn't apply loop context: %s" % node.text) - else: - text = node.text - return text - - -class LoopVariable(object): - """A node visitor which looks for the name 'loop' within undeclared - identifiers.""" - - def __init__(self): - self.detected = False - - def _loop_reference_detected(self, node): - if 'loop' in node.undeclared_identifiers(): - self.detected = True - else: - for n in node.get_children(): - n.accept_visitor(self) - - def visitControlLine(self, node): - self._loop_reference_detected(node) - - def visitCode(self, node): - self._loop_reference_detected(node) - - def visitExpression(self, node): - self._loop_reference_detected(node) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/compat.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/compat.py deleted file mode 100644 index fe277bbf05a..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/compat.py +++ /dev/null @@ -1,174 +0,0 @@ -import sys -import time - -py3k = sys.version_info >= (3, 0) -py33 = sys.version_info >= (3, 3) -py2k = sys.version_info < (3,) -py26 = sys.version_info >= (2, 6) -jython = sys.platform.startswith('java') -win32 = sys.platform.startswith('win') -pypy = hasattr(sys, 'pypy_version_info') - -if py3k: - from io import StringIO - import builtins as compat_builtins - from urllib.parse import quote_plus, unquote_plus - from html.entities import codepoint2name, name2codepoint - string_types = str, - binary_type = bytes - text_type = str - - from io import BytesIO as byte_buffer - - def u(s): - return s - - def b(s): - return s.encode("latin-1") - - def octal(lit): - return eval("0o" + lit) - -else: - import __builtin__ as compat_builtins - try: - from cStringIO import StringIO - except: - from StringIO import StringIO - - byte_buffer = StringIO - - from urllib import quote_plus, unquote_plus - from htmlentitydefs import codepoint2name, name2codepoint - string_types = basestring, - binary_type = str - text_type = unicode - - def u(s): - return unicode(s, "utf-8") - - def b(s): - return s - - def octal(lit): - return eval("0" + lit) - - -if py33: - from importlib import machinery - def load_module(module_id, path): - return machinery.SourceFileLoader(module_id, path).load_module() -else: - import imp - def load_module(module_id, path): - fp = open(path, 'rb') - try: - return imp.load_source(module_id, path, fp) - finally: - fp.close() - - -if py3k: - def reraise(tp, value, tb=None, cause=None): - if cause is not None: - value.__cause__ = cause - if value.__traceback__ is not tb: - raise value.with_traceback(tb) - raise value -else: - exec("def reraise(tp, value, tb=None, cause=None):\n" - " raise tp, value, tb\n") - - -def exception_as(): - return sys.exc_info()[1] - -try: - import threading - if py3k: - import _thread as thread - else: - import thread -except ImportError: - import dummy_threading as threading - if py3k: - import _dummy_thread as thread - else: - import dummy_thread as thread - -if win32 or jython: - time_func = time.clock -else: - time_func = time.time - -try: - from functools import partial -except: - def partial(func, *args, **keywords): - def newfunc(*fargs, **fkeywords): - newkeywords = keywords.copy() - newkeywords.update(fkeywords) - return func(*(args + fargs), **newkeywords) - return newfunc - - -all = all -import json - -def exception_name(exc): - return exc.__class__.__name__ - -try: - from inspect import CO_VARKEYWORDS, CO_VARARGS - def inspect_func_args(fn): - if py3k: - co = fn.__code__ - else: - co = fn.func_code - - nargs = co.co_argcount - names = co.co_varnames - args = list(names[:nargs]) - - varargs = None - if co.co_flags & CO_VARARGS: - varargs = co.co_varnames[nargs] - nargs = nargs + 1 - varkw = None - if co.co_flags & CO_VARKEYWORDS: - varkw = co.co_varnames[nargs] - - if py3k: - return args, varargs, varkw, fn.__defaults__ - else: - return args, varargs, varkw, fn.func_defaults -except ImportError: - import inspect - def inspect_func_args(fn): - return inspect.getargspec(fn) - -if py3k: - def callable(fn): - return hasattr(fn, '__call__') -else: - callable = callable - - -################################################ -# cross-compatible metaclass implementation -# Copyright (c) 2010-2012 Benjamin Peterson -def with_metaclass(meta, base=object): - """Create a base class with a metaclass.""" - return meta("%sBase" % meta.__name__, (base,), {}) -################################################ - - -def arg_stringname(func_arg): - """Gets the string name of a kwarg or vararg - In Python3.4 a function's args are - of _ast.arg type not _ast.name - """ - if hasattr(func_arg, 'arg'): - return func_arg.arg - else: - return str(func_arg) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/exceptions.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/exceptions.py deleted file mode 100644 index c531f2118d0..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/exceptions.py +++ /dev/null @@ -1,373 +0,0 @@ -# mako/exceptions.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""exception classes""" - -import traceback -import sys -from mako import util, compat - -class MakoException(Exception): - pass - -class RuntimeException(MakoException): - pass - -def _format_filepos(lineno, pos, filename): - if filename is None: - return " at line: %d char: %d" % (lineno, pos) - else: - return " in file '%s' at line: %d char: %d" % (filename, lineno, pos) - - -class CompileException(MakoException): - def __init__(self, message, source, lineno, pos, filename): - MakoException.__init__(self, - message + _format_filepos(lineno, pos, filename)) - self.lineno = lineno - self.pos = pos - self.filename = filename - self.source = source - -class SyntaxException(MakoException): - def __init__(self, message, source, lineno, pos, filename): - MakoException.__init__(self, - message + _format_filepos(lineno, pos, filename)) - self.lineno = lineno - self.pos = pos - self.filename = filename - self.source = source - -class UnsupportedError(MakoException): - """raised when a retired feature is used.""" - -class NameConflictError(MakoException): - """raised when a reserved word is used inappropriately""" - -class TemplateLookupException(MakoException): - pass - -class TopLevelLookupException(TemplateLookupException): - pass - -class RichTraceback(object): - """Pull the current exception from the ``sys`` traceback and extracts - Mako-specific template information. - - See the usage examples in :ref:`handling_exceptions`. - - """ - def __init__(self, error=None, traceback=None): - self.source, self.lineno = "", 0 - - if error is None or traceback is None: - t, value, tback = sys.exc_info() - - if error is None: - error = value or t - - if traceback is None: - traceback = tback - - self.error = error - self.records = self._init(traceback) - - if isinstance(self.error, (CompileException, SyntaxException)): - self.source = self.error.source - self.lineno = self.error.lineno - self._has_source = True - - self._init_message() - - @property - def errorname(self): - return compat.exception_name(self.error) - - def _init_message(self): - """Find a unicode representation of self.error""" - try: - self.message = compat.text_type(self.error) - except UnicodeError: - try: - self.message = str(self.error) - except UnicodeEncodeError: - # Fallback to args as neither unicode nor - # str(Exception(u'\xe6')) work in Python < 2.6 - self.message = self.error.args[0] - if not isinstance(self.message, compat.text_type): - self.message = compat.text_type(self.message, 'ascii', 'replace') - - def _get_reformatted_records(self, records): - for rec in records: - if rec[6] is not None: - yield (rec[4], rec[5], rec[2], rec[6]) - else: - yield tuple(rec[0:4]) - - @property - def traceback(self): - """Return a list of 4-tuple traceback records (i.e. normal python - format) with template-corresponding lines remapped to the originating - template. - - """ - return list(self._get_reformatted_records(self.records)) - - @property - def reverse_records(self): - return reversed(self.records) - - @property - def reverse_traceback(self): - """Return the same data as traceback, except in reverse order. - """ - - return list(self._get_reformatted_records(self.reverse_records)) - - def _init(self, trcback): - """format a traceback from sys.exc_info() into 7-item tuples, - containing the regular four traceback tuple items, plus the original - template filename, the line number adjusted relative to the template - source, and code line from that line number of the template.""" - - import mako.template - mods = {} - rawrecords = traceback.extract_tb(trcback) - new_trcback = [] - for filename, lineno, function, line in rawrecords: - if not line: - line = '' - try: - (line_map, template_lines) = mods[filename] - except KeyError: - try: - info = mako.template._get_module_info(filename) - module_source = info.code - template_source = info.source - template_filename = info.template_filename or filename - except KeyError: - # A normal .py file (not a Template) - if not compat.py3k: - try: - fp = open(filename, 'rb') - encoding = util.parse_encoding(fp) - fp.close() - except IOError: - encoding = None - if encoding: - line = line.decode(encoding) - else: - line = line.decode('ascii', 'replace') - new_trcback.append((filename, lineno, function, line, - None, None, None, None)) - continue - - template_ln = 1 - - source_map = mako.template.ModuleInfo.\ - get_module_source_metadata( - module_source, full_line_map=True) - line_map = source_map['full_line_map'] - - template_lines = [line for line in - template_source.split("\n")] - mods[filename] = (line_map, template_lines) - - template_ln = line_map[lineno - 1] - - if template_ln <= len(template_lines): - template_line = template_lines[template_ln - 1] - else: - template_line = None - new_trcback.append((filename, lineno, function, - line, template_filename, template_ln, - template_line, template_source)) - if not self.source: - for l in range(len(new_trcback) - 1, 0, -1): - if new_trcback[l][5]: - self.source = new_trcback[l][7] - self.lineno = new_trcback[l][5] - break - else: - if new_trcback: - try: - # A normal .py file (not a Template) - fp = open(new_trcback[-1][0], 'rb') - encoding = util.parse_encoding(fp) - fp.seek(0) - self.source = fp.read() - fp.close() - if encoding: - self.source = self.source.decode(encoding) - except IOError: - self.source = '' - self.lineno = new_trcback[-1][1] - return new_trcback - - -def text_error_template(lookup=None): - """Provides a template that renders a stack trace in a similar format to - the Python interpreter, substituting source template filenames, line - numbers and code for that of the originating source template, as - applicable. - - """ - import mako.template - return mako.template.Template(r""" -<%page args="error=None, traceback=None"/> -<%! - from mako.exceptions import RichTraceback -%>\ -<% - tback = RichTraceback(error=error, traceback=traceback) -%>\ -Traceback (most recent call last): -% for (filename, lineno, function, line) in tback.traceback: - File "${filename}", line ${lineno}, in ${function or '?'} - ${line | trim} -% endfor -${tback.errorname}: ${tback.message} -""") - - -def _install_pygments(): - global syntax_highlight, pygments_html_formatter - from mako.ext.pygmentplugin import syntax_highlight,\ - pygments_html_formatter - -def _install_fallback(): - global syntax_highlight, pygments_html_formatter - from mako.filters import html_escape - pygments_html_formatter = None - def syntax_highlight(filename='', language=None): - return html_escape - -def _install_highlighting(): - try: - _install_pygments() - except ImportError: - _install_fallback() -_install_highlighting() - -def html_error_template(): - """Provides a template that renders a stack trace in an HTML format, - providing an excerpt of code as well as substituting source template - filenames, line numbers and code for that of the originating source - template, as applicable. - - The template's default ``encoding_errors`` value is - ``'htmlentityreplace'``. The template has two options. With the - ``full`` option disabled, only a section of an HTML document is - returned. With the ``css`` option disabled, the default stylesheet - won't be included. - - """ - import mako.template - return mako.template.Template(r""" -<%! - from mako.exceptions import RichTraceback, syntax_highlight,\ - pygments_html_formatter -%> -<%page args="full=True, css=True, error=None, traceback=None"/> -% if full: -<html> -<head> - <title>Mako Runtime Error</title> -% endif -% if css: - <style> - body { font-family:verdana; margin:10px 30px 10px 30px;} - .stacktrace { margin:5px 5px 5px 5px; } - .highlight { padding:0px 10px 0px 10px; background-color:#9F9FDF; } - .nonhighlight { padding:0px; background-color:#DFDFDF; } - .sample { padding:10px; margin:10px 10px 10px 10px; - font-family:monospace; } - .sampleline { padding:0px 10px 0px 10px; } - .sourceline { margin:5px 5px 10px 5px; font-family:monospace;} - .location { font-size:80%; } - .highlight { white-space:pre; } - .sampleline { white-space:pre; } - - % if pygments_html_formatter: - ${pygments_html_formatter.get_style_defs()} - .linenos { min-width: 2.5em; text-align: right; } - pre { margin: 0; } - .syntax-highlighted { padding: 0 10px; } - .syntax-highlightedtable { border-spacing: 1px; } - .nonhighlight { border-top: 1px solid #DFDFDF; - border-bottom: 1px solid #DFDFDF; } - .stacktrace .nonhighlight { margin: 5px 15px 10px; } - .sourceline { margin: 0 0; font-family:monospace; } - .code { background-color: #F8F8F8; width: 100%; } - .error .code { background-color: #FFBDBD; } - .error .syntax-highlighted { background-color: #FFBDBD; } - % endif - - </style> -% endif -% if full: -</head> -<body> -% endif - -<h2>Error !</h2> -<% - tback = RichTraceback(error=error, traceback=traceback) - src = tback.source - line = tback.lineno - if src: - lines = src.split('\n') - else: - lines = None -%> -<h3>${tback.errorname}: ${tback.message|h}</h3> - -% if lines: - <div class="sample"> - <div class="nonhighlight"> -% for index in range(max(0, line-4),min(len(lines), line+5)): - <% - if pygments_html_formatter: - pygments_html_formatter.linenostart = index + 1 - %> - % if index + 1 == line: - <% - if pygments_html_formatter: - old_cssclass = pygments_html_formatter.cssclass - pygments_html_formatter.cssclass = 'error ' + old_cssclass - %> - ${lines[index] | syntax_highlight(language='mako')} - <% - if pygments_html_formatter: - pygments_html_formatter.cssclass = old_cssclass - %> - % else: - ${lines[index] | syntax_highlight(language='mako')} - % endif -% endfor - </div> - </div> -% endif - -<div class="stacktrace"> -% for (filename, lineno, function, line) in tback.reverse_traceback: - <div class="location">${filename}, line ${lineno}:</div> - <div class="nonhighlight"> - <% - if pygments_html_formatter: - pygments_html_formatter.linenostart = lineno - %> - <div class="sourceline">${line | syntax_highlight(filename)}</div> - </div> -% endfor -</div> - -% if full: -</body> -</html> -% endif -""", output_encoding=sys.getdefaultencoding(), - encoding_errors='htmlentityreplace') diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/filters.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/filters.py deleted file mode 100644 index d79ce2388f6..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/filters.py +++ /dev/null @@ -1,201 +0,0 @@ -# mako/filters.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - - -import re -import codecs - -from mako.compat import quote_plus, unquote_plus, codepoint2name, \ - name2codepoint - -from mako import compat - -xml_escapes = { - '&': '&', - '>': '>', - '<': '<', - '"': '"', # also " in html-only - "'": ''' # also ' in html-only -} - -# XXX: " is valid in HTML and XML -# ' is not valid HTML, but is valid XML - -def legacy_html_escape(s): - """legacy HTML escape for non-unicode mode.""" - s = s.replace("&", "&") - s = s.replace(">", ">") - s = s.replace("<", "<") - s = s.replace('"', """) - s = s.replace("'", "'") - return s - - -try: - import markupsafe - html_escape = markupsafe.escape -except ImportError: - html_escape = legacy_html_escape - -def xml_escape(string): - return re.sub(r'([&<"\'>])', lambda m: xml_escapes[m.group()], string) - -def url_escape(string): - # convert into a list of octets - string = string.encode("utf8") - return quote_plus(string) - -def legacy_url_escape(string): - # convert into a list of octets - return quote_plus(string) - -def url_unescape(string): - text = unquote_plus(string) - if not is_ascii_str(text): - text = text.decode("utf8") - return text - -def trim(string): - return string.strip() - - -class Decode(object): - def __getattr__(self, key): - def decode(x): - if isinstance(x, compat.text_type): - return x - elif not isinstance(x, compat.binary_type): - return decode(str(x)) - else: - return compat.text_type(x, encoding=key) - return decode -decode = Decode() - - -_ASCII_re = re.compile(r'\A[\x00-\x7f]*\Z') - -def is_ascii_str(text): - return isinstance(text, str) and _ASCII_re.match(text) - -################################################################ - -class XMLEntityEscaper(object): - def __init__(self, codepoint2name, name2codepoint): - self.codepoint2entity = dict([(c, compat.text_type('&%s;' % n)) - for c, n in codepoint2name.items()]) - self.name2codepoint = name2codepoint - - def escape_entities(self, text): - """Replace characters with their character entity references. - - Only characters corresponding to a named entity are replaced. - """ - return compat.text_type(text).translate(self.codepoint2entity) - - def __escape(self, m): - codepoint = ord(m.group()) - try: - return self.codepoint2entity[codepoint] - except (KeyError, IndexError): - return '&#x%X;' % codepoint - - - __escapable = re.compile(r'["&<>]|[^\x00-\x7f]') - - def escape(self, text): - """Replace characters with their character references. - - Replace characters by their named entity references. - Non-ASCII characters, if they do not have a named entity reference, - are replaced by numerical character references. - - The return value is guaranteed to be ASCII. - """ - return self.__escapable.sub(self.__escape, compat.text_type(text) - ).encode('ascii') - - # XXX: This regexp will not match all valid XML entity names__. - # (It punts on details involving involving CombiningChars and Extenders.) - # - # .. __: http://www.w3.org/TR/2000/REC-xml-20001006#NT-EntityRef - __characterrefs = re.compile(r'''& (?: - \#(\d+) - | \#x([\da-f]+) - | ( (?!\d) [:\w] [-.:\w]+ ) - ) ;''', - re.X | re.UNICODE) - - def __unescape(self, m): - dval, hval, name = m.groups() - if dval: - codepoint = int(dval) - elif hval: - codepoint = int(hval, 16) - else: - codepoint = self.name2codepoint.get(name, 0xfffd) - # U+FFFD = "REPLACEMENT CHARACTER" - if codepoint < 128: - return chr(codepoint) - return chr(codepoint) - - def unescape(self, text): - """Unescape character references. - - All character references (both entity references and numerical - character references) are unescaped. - """ - return self.__characterrefs.sub(self.__unescape, text) - - -_html_entities_escaper = XMLEntityEscaper(codepoint2name, name2codepoint) - -html_entities_escape = _html_entities_escaper.escape_entities -html_entities_unescape = _html_entities_escaper.unescape - - -def htmlentityreplace_errors(ex): - """An encoding error handler. - - This python `codecs`_ error handler replaces unencodable - characters with HTML entities, or, if no HTML entity exists for - the character, XML character references. - - >>> u'The cost was \u20ac12.'.encode('latin1', 'htmlentityreplace') - 'The cost was €12.' - """ - if isinstance(ex, UnicodeEncodeError): - # Handle encoding errors - bad_text = ex.object[ex.start:ex.end] - text = _html_entities_escaper.escape(bad_text) - return (compat.text_type(text), ex.end) - raise ex - -codecs.register_error('htmlentityreplace', htmlentityreplace_errors) - - -# TODO: options to make this dynamic per-compilation will be added in a later -# release -DEFAULT_ESCAPES = { - 'x': 'filters.xml_escape', - 'h': 'filters.html_escape', - 'u': 'filters.url_escape', - 'trim': 'filters.trim', - 'entity': 'filters.html_entities_escape', - 'unicode': 'unicode', - 'decode': 'decode', - 'str': 'str', - 'n': 'n' -} - -if compat.py3k: - DEFAULT_ESCAPES.update({ - 'unicode': 'str' - }) - -NON_UNICODE_ESCAPES = DEFAULT_ESCAPES.copy() -NON_UNICODE_ESCAPES['h'] = 'filters.legacy_html_escape' -NON_UNICODE_ESCAPES['u'] = 'filters.legacy_url_escape' - diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/lexer.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/lexer.py deleted file mode 100644 index 1dda398215d..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/lexer.py +++ /dev/null @@ -1,441 +0,0 @@ -# mako/lexer.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""provides the Lexer class for parsing template strings into parse trees.""" - -import re -import codecs -from mako import parsetree, exceptions, compat -from mako.pygen import adjust_whitespace - -_regexp_cache = {} - -class Lexer(object): - def __init__(self, text, filename=None, - disable_unicode=False, - input_encoding=None, preprocessor=None): - self.text = text - self.filename = filename - self.template = parsetree.TemplateNode(self.filename) - self.matched_lineno = 1 - self.matched_charpos = 0 - self.lineno = 1 - self.match_position = 0 - self.tag = [] - self.control_line = [] - self.ternary_stack = [] - self.disable_unicode = disable_unicode - self.encoding = input_encoding - - if compat.py3k and disable_unicode: - raise exceptions.UnsupportedError( - "Mako for Python 3 does not " - "support disabling Unicode") - - if preprocessor is None: - self.preprocessor = [] - elif not hasattr(preprocessor, '__iter__'): - self.preprocessor = [preprocessor] - else: - self.preprocessor = preprocessor - - @property - def exception_kwargs(self): - return {'source': self.text, - 'lineno': self.matched_lineno, - 'pos': self.matched_charpos, - 'filename': self.filename} - - def match(self, regexp, flags=None): - """compile the given regexp, cache the reg, and call match_reg().""" - - try: - reg = _regexp_cache[(regexp, flags)] - except KeyError: - if flags: - reg = re.compile(regexp, flags) - else: - reg = re.compile(regexp) - _regexp_cache[(regexp, flags)] = reg - - return self.match_reg(reg) - - def match_reg(self, reg): - """match the given regular expression object to the current text - position. - - if a match occurs, update the current text and line position. - - """ - - mp = self.match_position - - match = reg.match(self.text, self.match_position) - if match: - (start, end) = match.span() - if end == start: - self.match_position = end + 1 - else: - self.match_position = end - self.matched_lineno = self.lineno - lines = re.findall(r"\n", self.text[mp:self.match_position]) - cp = mp - 1 - while (cp >= 0 and cp < self.textlength and self.text[cp] != '\n'): - cp -= 1 - self.matched_charpos = mp - cp - self.lineno += len(lines) - #print "MATCHED:", match.group(0), "LINE START:", - # self.matched_lineno, "LINE END:", self.lineno - #print "MATCH:", regexp, "\n", self.text[mp : mp + 15], \ - # (match and "TRUE" or "FALSE") - return match - - def parse_until_text(self, *text): - startpos = self.match_position - text_re = r'|'.join(text) - brace_level = 0 - while True: - match = self.match(r'#.*\n') - if match: - continue - match = self.match(r'(\"\"\"|\'\'\'|\"|\')((?<!\\)\\\1|.)*?\1', - re.S) - if match: - continue - match = self.match(r'(%s)' % text_re) - if match: - if match.group(1) == '}' and brace_level > 0: - brace_level -= 1 - continue - return \ - self.text[startpos: - self.match_position - len(match.group(1))],\ - match.group(1) - match = self.match(r"(.*?)(?=\"|\'|#|%s)" % text_re, re.S) - if match: - brace_level += match.group(1).count('{') - brace_level -= match.group(1).count('}') - continue - raise exceptions.SyntaxException( - "Expected: %s" % - ','.join(text), - **self.exception_kwargs) - - def append_node(self, nodecls, *args, **kwargs): - kwargs.setdefault('source', self.text) - kwargs.setdefault('lineno', self.matched_lineno) - kwargs.setdefault('pos', self.matched_charpos) - kwargs['filename'] = self.filename - node = nodecls(*args, **kwargs) - if len(self.tag): - self.tag[-1].nodes.append(node) - else: - self.template.nodes.append(node) - # build a set of child nodes for the control line - # (used for loop variable detection) - # also build a set of child nodes on ternary control lines - # (used for determining if a pass needs to be auto-inserted - if self.control_line: - control_frame = self.control_line[-1] - control_frame.nodes.append(node) - if not (isinstance(node, parsetree.ControlLine) and - control_frame.is_ternary(node.keyword)): - if self.ternary_stack and self.ternary_stack[-1]: - self.ternary_stack[-1][-1].nodes.append(node) - if isinstance(node, parsetree.Tag): - if len(self.tag): - node.parent = self.tag[-1] - self.tag.append(node) - elif isinstance(node, parsetree.ControlLine): - if node.isend: - self.control_line.pop() - self.ternary_stack.pop() - elif node.is_primary: - self.control_line.append(node) - self.ternary_stack.append([]) - elif self.control_line and \ - self.control_line[-1].is_ternary(node.keyword): - self.ternary_stack[-1].append(node) - elif self.control_line and \ - not self.control_line[-1].is_ternary(node.keyword): - raise exceptions.SyntaxException( - "Keyword '%s' not a legal ternary for keyword '%s'" % - (node.keyword, self.control_line[-1].keyword), - **self.exception_kwargs) - - _coding_re = re.compile(r'#.*coding[:=]\s*([-\w.]+).*\r?\n') - - def decode_raw_stream(self, text, decode_raw, known_encoding, filename): - """given string/unicode or bytes/string, determine encoding - from magic encoding comment, return body as unicode - or raw if decode_raw=False - - """ - if isinstance(text, compat.text_type): - m = self._coding_re.match(text) - encoding = m and m.group(1) or known_encoding or 'ascii' - return encoding, text - - if text.startswith(codecs.BOM_UTF8): - text = text[len(codecs.BOM_UTF8):] - parsed_encoding = 'utf-8' - m = self._coding_re.match(text.decode('utf-8', 'ignore')) - if m is not None and m.group(1) != 'utf-8': - raise exceptions.CompileException( - "Found utf-8 BOM in file, with conflicting " - "magic encoding comment of '%s'" % m.group(1), - text.decode('utf-8', 'ignore'), - 0, 0, filename) - else: - m = self._coding_re.match(text.decode('utf-8', 'ignore')) - if m: - parsed_encoding = m.group(1) - else: - parsed_encoding = known_encoding or 'ascii' - - if decode_raw: - try: - text = text.decode(parsed_encoding) - except UnicodeDecodeError: - raise exceptions.CompileException( - "Unicode decode operation of encoding '%s' failed" % - parsed_encoding, - text.decode('utf-8', 'ignore'), - 0, 0, filename) - - return parsed_encoding, text - - def parse(self): - self.encoding, self.text = self.decode_raw_stream(self.text, - not self.disable_unicode, - self.encoding, - self.filename,) - - for preproc in self.preprocessor: - self.text = preproc(self.text) - - # push the match marker past the - # encoding comment. - self.match_reg(self._coding_re) - - self.textlength = len(self.text) - - while (True): - if self.match_position > self.textlength: - break - - if self.match_end(): - break - if self.match_expression(): - continue - if self.match_control_line(): - continue - if self.match_comment(): - continue - if self.match_tag_start(): - continue - if self.match_tag_end(): - continue - if self.match_python_block(): - continue - if self.match_text(): - continue - - if self.match_position > self.textlength: - break - raise exceptions.CompileException("assertion failed") - - if len(self.tag): - raise exceptions.SyntaxException("Unclosed tag: <%%%s>" % - self.tag[-1].keyword, - **self.exception_kwargs) - if len(self.control_line): - raise exceptions.SyntaxException( - "Unterminated control keyword: '%s'" % - self.control_line[-1].keyword, - self.text, - self.control_line[-1].lineno, - self.control_line[-1].pos, self.filename) - return self.template - - def match_tag_start(self): - match = self.match(r''' - \<% # opening tag - - ([\w\.\:]+) # keyword - - ((?:\s+\w+|\s*=\s*|".*?"|'.*?')*) # attrname, = \ - # sign, string expression - - \s* # more whitespace - - (/)?> # closing - - ''', - - re.I | re.S | re.X) - - if match: - keyword, attr, isend = match.groups() - self.keyword = keyword - attributes = {} - if attr: - for att in re.findall( - r"\s*(\w+)\s*=\s*(?:'([^']*)'|\"([^\"]*)\")", attr): - key, val1, val2 = att - text = val1 or val2 - text = text.replace('\r\n', '\n') - attributes[key] = text - self.append_node(parsetree.Tag, keyword, attributes) - if isend: - self.tag.pop() - else: - if keyword == 'text': - match = self.match(r'(.*?)(?=\</%text>)', re.S) - if not match: - raise exceptions.SyntaxException( - "Unclosed tag: <%%%s>" % - self.tag[-1].keyword, - **self.exception_kwargs) - self.append_node(parsetree.Text, match.group(1)) - return self.match_tag_end() - return True - else: - return False - - def match_tag_end(self): - match = self.match(r'\</%[\t ]*(.+?)[\t ]*>') - if match: - if not len(self.tag): - raise exceptions.SyntaxException( - "Closing tag without opening tag: </%%%s>" % - match.group(1), - **self.exception_kwargs) - elif self.tag[-1].keyword != match.group(1): - raise exceptions.SyntaxException( - "Closing tag </%%%s> does not match tag: <%%%s>" % - (match.group(1), self.tag[-1].keyword), - **self.exception_kwargs) - self.tag.pop() - return True - else: - return False - - def match_end(self): - match = self.match(r'\Z', re.S) - if match: - string = match.group() - if string: - return string - else: - return True - else: - return False - - def match_text(self): - match = self.match(r""" - (.*?) # anything, followed by: - ( - (?<=\n)(?=[ \t]*(?=%|\#\#)) # an eval or line-based - # comment preceded by a - # consumed newline and whitespace - | - (?=\${) # an expression - | - (?=</?[%&]) # a substitution or block or call start or end - # - don't consume - | - (\\\r?\n) # an escaped newline - throw away - | - \Z # end of string - )""", re.X | re.S) - - if match: - text = match.group(1) - if text: - self.append_node(parsetree.Text, text) - return True - else: - return False - - def match_python_block(self): - match = self.match(r"<%(!)?") - if match: - line, pos = self.matched_lineno, self.matched_charpos - text, end = self.parse_until_text(r'%>') - # the trailing newline helps - # compiler.parse() not complain about indentation - text = adjust_whitespace(text) + "\n" - self.append_node( - parsetree.Code, - text, - match.group(1) == '!', lineno=line, pos=pos) - return True - else: - return False - - def match_expression(self): - match = self.match(r"\${") - if match: - line, pos = self.matched_lineno, self.matched_charpos - text, end = self.parse_until_text(r'\|', r'}') - if end == '|': - escapes, end = self.parse_until_text(r'}') - else: - escapes = "" - text = text.replace('\r\n', '\n') - self.append_node( - parsetree.Expression, - text, escapes.strip(), - lineno=line, pos=pos) - return True - else: - return False - - def match_control_line(self): - match = self.match( - r"(?<=^)[\t ]*(%(?!%)|##)[\t ]*((?:(?:\\r?\n)|[^\r\n])*)" - r"(?:\r?\n|\Z)", re.M) - if match: - operator = match.group(1) - text = match.group(2) - if operator == '%': - m2 = re.match(r'(end)?(\w+)\s*(.*)', text) - if not m2: - raise exceptions.SyntaxException( - "Invalid control line: '%s'" % - text, - **self.exception_kwargs) - isend, keyword = m2.group(1, 2) - isend = (isend is not None) - - if isend: - if not len(self.control_line): - raise exceptions.SyntaxException( - "No starting keyword '%s' for '%s'" % - (keyword, text), - **self.exception_kwargs) - elif self.control_line[-1].keyword != keyword: - raise exceptions.SyntaxException( - "Keyword '%s' doesn't match keyword '%s'" % - (text, self.control_line[-1].keyword), - **self.exception_kwargs) - self.append_node(parsetree.ControlLine, keyword, isend, text) - else: - self.append_node(parsetree.Comment, text) - return True - else: - return False - - def match_comment(self): - """matches the multiline version of a comment""" - match = self.match(r"<%doc>(.*?)</%doc>", re.S) - if match: - self.append_node(parsetree.Comment, match.group(1)) - return True - else: - return False - diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/lookup.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/lookup.py deleted file mode 100644 index 2af5411907a..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/lookup.py +++ /dev/null @@ -1,359 +0,0 @@ -# mako/lookup.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -import os, stat, posixpath, re -from mako import exceptions, util -from mako.template import Template - -try: - import threading -except: - import dummy_threading as threading - -class TemplateCollection(object): - """Represent a collection of :class:`.Template` objects, - identifiable via URI. - - A :class:`.TemplateCollection` is linked to the usage of - all template tags that address other templates, such - as ``<%include>``, ``<%namespace>``, and ``<%inherit>``. - The ``file`` attribute of each of those tags refers - to a string URI that is passed to that :class:`.Template` - object's :class:`.TemplateCollection` for resolution. - - :class:`.TemplateCollection` is an abstract class, - with the usual default implementation being :class:`.TemplateLookup`. - - """ - - def has_template(self, uri): - """Return ``True`` if this :class:`.TemplateLookup` is - capable of returning a :class:`.Template` object for the - given ``uri``. - - :param uri: String URI of the template to be resolved. - - """ - try: - self.get_template(uri) - return True - except exceptions.TemplateLookupException: - return False - - def get_template(self, uri, relativeto=None): - """Return a :class:`.Template` object corresponding to the given - ``uri``. - - The default implementation raises - :class:`.NotImplementedError`. Implementations should - raise :class:`.TemplateLookupException` if the given ``uri`` - cannot be resolved. - - :param uri: String URI of the template to be resolved. - :param relativeto: if present, the given ``uri`` is assumed to - be relative to this URI. - - """ - raise NotImplementedError() - - def filename_to_uri(self, uri, filename): - """Convert the given ``filename`` to a URI relative to - this :class:`.TemplateCollection`.""" - - return uri - - def adjust_uri(self, uri, filename): - """Adjust the given ``uri`` based on the calling ``filename``. - - When this method is called from the runtime, the - ``filename`` parameter is taken directly to the ``filename`` - attribute of the calling template. Therefore a custom - :class:`.TemplateCollection` subclass can place any string - identifier desired in the ``filename`` parameter of the - :class:`.Template` objects it constructs and have them come back - here. - - """ - return uri - -class TemplateLookup(TemplateCollection): - """Represent a collection of templates that locates template source files - from the local filesystem. - - The primary argument is the ``directories`` argument, the list of - directories to search: - - .. sourcecode:: python - - lookup = TemplateLookup(["/path/to/templates"]) - some_template = lookup.get_template("/index.html") - - The :class:`.TemplateLookup` can also be given :class:`.Template` objects - programatically using :meth:`.put_string` or :meth:`.put_template`: - - .. sourcecode:: python - - lookup = TemplateLookup() - lookup.put_string("base.html", ''' - <html><body>${self.next()}</body></html> - ''') - lookup.put_string("hello.html", ''' - <%include file='base.html'/> - - Hello, world ! - ''') - - - :param directories: A list of directory names which will be - searched for a particular template URI. The URI is appended - to each directory and the filesystem checked. - - :param collection_size: Approximate size of the collection used - to store templates. If left at its default of ``-1``, the size - is unbounded, and a plain Python dictionary is used to - relate URI strings to :class:`.Template` instances. - Otherwise, a least-recently-used cache object is used which - will maintain the size of the collection approximately to - the number given. - - :param filesystem_checks: When at its default value of ``True``, - each call to :meth:`.TemplateLookup.get_template()` will - compare the filesystem last modified time to the time in - which an existing :class:`.Template` object was created. - This allows the :class:`.TemplateLookup` to regenerate a - new :class:`.Template` whenever the original source has - been updated. Set this to ``False`` for a very minor - performance increase. - - :param modulename_callable: A callable which, when present, - is passed the path of the source file as well as the - requested URI, and then returns the full path of the - generated Python module file. This is used to inject - alternate schemes for Python module location. If left at - its default of ``None``, the built in system of generation - based on ``module_directory`` plus ``uri`` is used. - - All other keyword parameters available for - :class:`.Template` are mirrored here. When new - :class:`.Template` objects are created, the keywords - established with this :class:`.TemplateLookup` are passed on - to each new :class:`.Template`. - - """ - - def __init__(self, - directories=None, - module_directory=None, - filesystem_checks=True, - collection_size=-1, - format_exceptions=False, - error_handler=None, - disable_unicode=False, - bytestring_passthrough=False, - output_encoding=None, - encoding_errors='strict', - - cache_args=None, - cache_impl='beaker', - cache_enabled=True, - cache_type=None, - cache_dir=None, - cache_url=None, - - modulename_callable=None, - module_writer=None, - default_filters=None, - buffer_filters=(), - strict_undefined=False, - imports=None, - future_imports=None, - enable_loop=True, - input_encoding=None, - preprocessor=None, - lexer_cls=None): - - self.directories = [posixpath.normpath(d) for d in - util.to_list(directories, ()) - ] - self.module_directory = module_directory - self.modulename_callable = modulename_callable - self.filesystem_checks = filesystem_checks - self.collection_size = collection_size - - if cache_args is None: - cache_args = {} - # transfer deprecated cache_* args - if cache_dir: - cache_args.setdefault('dir', cache_dir) - if cache_url: - cache_args.setdefault('url', cache_url) - if cache_type: - cache_args.setdefault('type', cache_type) - - self.template_args = { - 'format_exceptions':format_exceptions, - 'error_handler':error_handler, - 'disable_unicode':disable_unicode, - 'bytestring_passthrough':bytestring_passthrough, - 'output_encoding':output_encoding, - 'cache_impl':cache_impl, - 'encoding_errors':encoding_errors, - 'input_encoding':input_encoding, - 'module_directory':module_directory, - 'module_writer':module_writer, - 'cache_args':cache_args, - 'cache_enabled':cache_enabled, - 'default_filters':default_filters, - 'buffer_filters':buffer_filters, - 'strict_undefined':strict_undefined, - 'imports':imports, - 'future_imports':future_imports, - 'enable_loop':enable_loop, - 'preprocessor':preprocessor, - 'lexer_cls':lexer_cls - } - - if collection_size == -1: - self._collection = {} - self._uri_cache = {} - else: - self._collection = util.LRUCache(collection_size) - self._uri_cache = util.LRUCache(collection_size) - self._mutex = threading.Lock() - - def get_template(self, uri): - """Return a :class:`.Template` object corresponding to the given - ``uri``. - - .. note:: The ``relativeto`` argument is not supported here at the moment. - - """ - - try: - if self.filesystem_checks: - return self._check(uri, self._collection[uri]) - else: - return self._collection[uri] - except KeyError: - u = re.sub(r'^\/+', '', uri) - for dir in self.directories: - srcfile = posixpath.normpath(posixpath.join(dir, u)) - if os.path.isfile(srcfile): - return self._load(srcfile, uri) - else: - raise exceptions.TopLevelLookupException( - "Cant locate template for uri %r" % uri) - - def adjust_uri(self, uri, relativeto): - """Adjust the given ``uri`` based on the given relative URI.""" - - key = (uri, relativeto) - if key in self._uri_cache: - return self._uri_cache[key] - - if uri[0] != '/': - if relativeto is not None: - v = self._uri_cache[key] = posixpath.join( - posixpath.dirname(relativeto), uri) - else: - v = self._uri_cache[key] = '/' + uri - else: - v = self._uri_cache[key] = uri - return v - - - def filename_to_uri(self, filename): - """Convert the given ``filename`` to a URI relative to - this :class:`.TemplateCollection`.""" - - try: - return self._uri_cache[filename] - except KeyError: - value = self._relativeize(filename) - self._uri_cache[filename] = value - return value - - def _relativeize(self, filename): - """Return the portion of a filename that is 'relative' - to the directories in this lookup. - - """ - - filename = posixpath.normpath(filename) - for dir in self.directories: - if filename[0:len(dir)] == dir: - return filename[len(dir):] - else: - return None - - def _load(self, filename, uri): - self._mutex.acquire() - try: - try: - # try returning from collection one - # more time in case concurrent thread already loaded - return self._collection[uri] - except KeyError: - pass - try: - if self.modulename_callable is not None: - module_filename = self.modulename_callable(filename, uri) - else: - module_filename = None - self._collection[uri] = template = Template( - uri=uri, - filename=posixpath.normpath(filename), - lookup=self, - module_filename=module_filename, - **self.template_args) - return template - except: - # if compilation fails etc, ensure - # template is removed from collection, - # re-raise - self._collection.pop(uri, None) - raise - finally: - self._mutex.release() - - def _check(self, uri, template): - if template.filename is None: - return template - - try: - template_stat = os.stat(template.filename) - if template.module._modified_time < \ - template_stat[stat.ST_MTIME]: - self._collection.pop(uri, None) - return self._load(template.filename, uri) - else: - return template - except OSError: - self._collection.pop(uri, None) - raise exceptions.TemplateLookupException( - "Cant locate template for uri %r" % uri) - - - def put_string(self, uri, text): - """Place a new :class:`.Template` object into this - :class:`.TemplateLookup`, based on the given string of - ``text``. - - """ - self._collection[uri] = Template( - text, - lookup=self, - uri=uri, - **self.template_args) - - def put_template(self, uri, template): - """Place a new :class:`.Template` object into this - :class:`.TemplateLookup`, based on the given - :class:`.Template` object. - - """ - self._collection[uri] = template - diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/parsetree.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/parsetree.py deleted file mode 100644 index 49ec4e0696c..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/parsetree.py +++ /dev/null @@ -1,594 +0,0 @@ -# mako/parsetree.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""defines the parse tree components for Mako templates.""" - -from mako import exceptions, ast, util, filters, compat -import re - -class Node(object): - """base class for a Node in the parse tree.""" - - def __init__(self, source, lineno, pos, filename): - self.source = source - self.lineno = lineno - self.pos = pos - self.filename = filename - - @property - def exception_kwargs(self): - return {'source': self.source, 'lineno': self.lineno, - 'pos': self.pos, 'filename': self.filename} - - def get_children(self): - return [] - - def accept_visitor(self, visitor): - def traverse(node): - for n in node.get_children(): - n.accept_visitor(visitor) - - method = getattr(visitor, "visit" + self.__class__.__name__, traverse) - method(self) - -class TemplateNode(Node): - """a 'container' node that stores the overall collection of nodes.""" - - def __init__(self, filename): - super(TemplateNode, self).__init__('', 0, 0, filename) - self.nodes = [] - self.page_attributes = {} - - def get_children(self): - return self.nodes - - def __repr__(self): - return "TemplateNode(%s, %r)" % ( - util.sorted_dict_repr(self.page_attributes), - self.nodes) - -class ControlLine(Node): - """defines a control line, a line-oriented python line or end tag. - - e.g.:: - - % if foo: - (markup) - % endif - - """ - - has_loop_context = False - - def __init__(self, keyword, isend, text, **kwargs): - super(ControlLine, self).__init__(**kwargs) - self.text = text - self.keyword = keyword - self.isend = isend - self.is_primary = keyword in ['for', 'if', 'while', 'try', 'with'] - self.nodes = [] - if self.isend: - self._declared_identifiers = [] - self._undeclared_identifiers = [] - else: - code = ast.PythonFragment(text, **self.exception_kwargs) - self._declared_identifiers = code.declared_identifiers - self._undeclared_identifiers = code.undeclared_identifiers - - def get_children(self): - return self.nodes - - def declared_identifiers(self): - return self._declared_identifiers - - def undeclared_identifiers(self): - return self._undeclared_identifiers - - def is_ternary(self, keyword): - """return true if the given keyword is a ternary keyword - for this ControlLine""" - - return keyword in { - 'if':set(['else', 'elif']), - 'try':set(['except', 'finally']), - 'for':set(['else']) - }.get(self.keyword, []) - - def __repr__(self): - return "ControlLine(%r, %r, %r, %r)" % ( - self.keyword, - self.text, - self.isend, - (self.lineno, self.pos) - ) - -class Text(Node): - """defines plain text in the template.""" - - def __init__(self, content, **kwargs): - super(Text, self).__init__(**kwargs) - self.content = content - - def __repr__(self): - return "Text(%r, %r)" % (self.content, (self.lineno, self.pos)) - -class Code(Node): - """defines a Python code block, either inline or module level. - - e.g.:: - - inline: - <% - x = 12 - %> - - module level: - <%! - import logger - %> - - """ - - def __init__(self, text, ismodule, **kwargs): - super(Code, self).__init__(**kwargs) - self.text = text - self.ismodule = ismodule - self.code = ast.PythonCode(text, **self.exception_kwargs) - - def declared_identifiers(self): - return self.code.declared_identifiers - - def undeclared_identifiers(self): - return self.code.undeclared_identifiers - - def __repr__(self): - return "Code(%r, %r, %r)" % ( - self.text, - self.ismodule, - (self.lineno, self.pos) - ) - -class Comment(Node): - """defines a comment line. - - # this is a comment - - """ - - def __init__(self, text, **kwargs): - super(Comment, self).__init__(**kwargs) - self.text = text - - def __repr__(self): - return "Comment(%r, %r)" % (self.text, (self.lineno, self.pos)) - -class Expression(Node): - """defines an inline expression. - - ${x+y} - - """ - - def __init__(self, text, escapes, **kwargs): - super(Expression, self).__init__(**kwargs) - self.text = text - self.escapes = escapes - self.escapes_code = ast.ArgumentList(escapes, **self.exception_kwargs) - self.code = ast.PythonCode(text, **self.exception_kwargs) - - def declared_identifiers(self): - return [] - - def undeclared_identifiers(self): - # TODO: make the "filter" shortcut list configurable at parse/gen time - return self.code.undeclared_identifiers.union( - self.escapes_code.undeclared_identifiers.difference( - set(filters.DEFAULT_ESCAPES.keys()) - ) - ).difference(self.code.declared_identifiers) - - def __repr__(self): - return "Expression(%r, %r, %r)" % ( - self.text, - self.escapes_code.args, - (self.lineno, self.pos) - ) - -class _TagMeta(type): - """metaclass to allow Tag to produce a subclass according to - its keyword""" - - _classmap = {} - - def __init__(cls, clsname, bases, dict): - if getattr(cls, '__keyword__', None) is not None: - cls._classmap[cls.__keyword__] = cls - super(_TagMeta, cls).__init__(clsname, bases, dict) - - def __call__(cls, keyword, attributes, **kwargs): - if ":" in keyword: - ns, defname = keyword.split(':') - return type.__call__(CallNamespaceTag, ns, defname, - attributes, **kwargs) - - try: - cls = _TagMeta._classmap[keyword] - except KeyError: - raise exceptions.CompileException( - "No such tag: '%s'" % keyword, - source=kwargs['source'], - lineno=kwargs['lineno'], - pos=kwargs['pos'], - filename=kwargs['filename'] - ) - return type.__call__(cls, keyword, attributes, **kwargs) - -class Tag(compat.with_metaclass(_TagMeta, Node)): - """abstract base class for tags. - - <%sometag/> - - <%someothertag> - stuff - </%someothertag> - - """ - __keyword__ = None - - def __init__(self, keyword, attributes, expressions, - nonexpressions, required, **kwargs): - """construct a new Tag instance. - - this constructor not called directly, and is only called - by subclasses. - - :param keyword: the tag keyword - - :param attributes: raw dictionary of attribute key/value pairs - - :param expressions: a set of identifiers that are legal attributes, - which can also contain embedded expressions - - :param nonexpressions: a set of identifiers that are legal - attributes, which cannot contain embedded expressions - - :param \**kwargs: - other arguments passed to the Node superclass (lineno, pos) - - """ - super(Tag, self).__init__(**kwargs) - self.keyword = keyword - self.attributes = attributes - self._parse_attributes(expressions, nonexpressions) - missing = [r for r in required if r not in self.parsed_attributes] - if len(missing): - raise exceptions.CompileException( - "Missing attribute(s): %s" % - ",".join([repr(m) for m in missing]), - **self.exception_kwargs) - self.parent = None - self.nodes = [] - - def is_root(self): - return self.parent is None - - def get_children(self): - return self.nodes - - def _parse_attributes(self, expressions, nonexpressions): - undeclared_identifiers = set() - self.parsed_attributes = {} - for key in self.attributes: - if key in expressions: - expr = [] - for x in re.compile(r'(\${.+?})', - re.S).split(self.attributes[key]): - m = re.compile(r'^\${(.+?)}$', re.S).match(x) - if m: - code = ast.PythonCode(m.group(1).rstrip(), - **self.exception_kwargs) - # we aren't discarding "declared_identifiers" here, - # which we do so that list comprehension-declared - # variables aren't counted. As yet can't find a - # condition that requires it here. - undeclared_identifiers = \ - undeclared_identifiers.union( - code.undeclared_identifiers) - expr.append('(%s)' % m.group(1)) - else: - if x: - expr.append(repr(x)) - self.parsed_attributes[key] = " + ".join(expr) or repr('') - elif key in nonexpressions: - if re.search(r'\${.+?}', self.attributes[key]): - raise exceptions.CompileException( - "Attibute '%s' in tag '%s' does not allow embedded " - "expressions" % (key, self.keyword), - **self.exception_kwargs) - self.parsed_attributes[key] = repr(self.attributes[key]) - else: - raise exceptions.CompileException( - "Invalid attribute for tag '%s': '%s'" % - (self.keyword, key), - **self.exception_kwargs) - self.expression_undeclared_identifiers = undeclared_identifiers - - def declared_identifiers(self): - return [] - - def undeclared_identifiers(self): - return self.expression_undeclared_identifiers - - def __repr__(self): - return "%s(%r, %s, %r, %r)" % (self.__class__.__name__, - self.keyword, - util.sorted_dict_repr(self.attributes), - (self.lineno, self.pos), - self.nodes - ) - -class IncludeTag(Tag): - __keyword__ = 'include' - - def __init__(self, keyword, attributes, **kwargs): - super(IncludeTag, self).__init__( - keyword, - attributes, - ('file', 'import', 'args'), - (), ('file',), **kwargs) - self.page_args = ast.PythonCode( - "__DUMMY(%s)" % attributes.get('args', ''), - **self.exception_kwargs) - - def declared_identifiers(self): - return [] - - def undeclared_identifiers(self): - identifiers = self.page_args.undeclared_identifiers.\ - difference(set(["__DUMMY"])).\ - difference(self.page_args.declared_identifiers) - return identifiers.union(super(IncludeTag, self). - undeclared_identifiers()) - -class NamespaceTag(Tag): - __keyword__ = 'namespace' - - def __init__(self, keyword, attributes, **kwargs): - super(NamespaceTag, self).__init__( - keyword, attributes, - ('file',), - ('name','inheritable', - 'import','module'), - (), **kwargs) - - self.name = attributes.get('name', '__anon_%s' % hex(abs(id(self)))) - if not 'name' in attributes and not 'import' in attributes: - raise exceptions.CompileException( - "'name' and/or 'import' attributes are required " - "for <%namespace>", - **self.exception_kwargs) - if 'file' in attributes and 'module' in attributes: - raise exceptions.CompileException( - "<%namespace> may only have one of 'file' or 'module'", - **self.exception_kwargs - ) - - def declared_identifiers(self): - return [] - -class TextTag(Tag): - __keyword__ = 'text' - - def __init__(self, keyword, attributes, **kwargs): - super(TextTag, self).__init__( - keyword, - attributes, (), - ('filter'), (), **kwargs) - self.filter_args = ast.ArgumentList( - attributes.get('filter', ''), - **self.exception_kwargs) - - def undeclared_identifiers(self): - return self.filter_args.\ - undeclared_identifiers.\ - difference(filters.DEFAULT_ESCAPES.keys()).union( - self.expression_undeclared_identifiers - ) - -class DefTag(Tag): - __keyword__ = 'def' - - def __init__(self, keyword, attributes, **kwargs): - expressions = ['buffered', 'cached'] + [ - c for c in attributes if c.startswith('cache_')] - - - super(DefTag, self).__init__( - keyword, - attributes, - expressions, - ('name', 'filter', 'decorator'), - ('name',), - **kwargs) - name = attributes['name'] - if re.match(r'^[\w_]+$', name): - raise exceptions.CompileException( - "Missing parenthesis in %def", - **self.exception_kwargs) - self.function_decl = ast.FunctionDecl("def " + name + ":pass", - **self.exception_kwargs) - self.name = self.function_decl.funcname - self.decorator = attributes.get('decorator', '') - self.filter_args = ast.ArgumentList( - attributes.get('filter', ''), - **self.exception_kwargs) - - is_anonymous = False - is_block = False - - @property - def funcname(self): - return self.function_decl.funcname - - def get_argument_expressions(self, **kw): - return self.function_decl.get_argument_expressions(**kw) - - def declared_identifiers(self): - return self.function_decl.allargnames - - def undeclared_identifiers(self): - res = [] - for c in self.function_decl.defaults: - res += list(ast.PythonCode(c, **self.exception_kwargs). - undeclared_identifiers) - return set(res).union( - self.filter_args.\ - undeclared_identifiers.\ - difference(filters.DEFAULT_ESCAPES.keys()) - ).union( - self.expression_undeclared_identifiers - ).difference( - self.function_decl.allargnames - ) - -class BlockTag(Tag): - __keyword__ = 'block' - - def __init__(self, keyword, attributes, **kwargs): - expressions = ['buffered', 'cached', 'args'] + [ - c for c in attributes if c.startswith('cache_')] - - super(BlockTag, self).__init__( - keyword, - attributes, - expressions, - ('name','filter', 'decorator'), - (), - **kwargs) - name = attributes.get('name') - if name and not re.match(r'^[\w_]+$',name): - raise exceptions.CompileException( - "%block may not specify an argument signature", - **self.exception_kwargs) - if not name and attributes.get('args', None): - raise exceptions.CompileException( - "Only named %blocks may specify args", - **self.exception_kwargs - ) - self.body_decl = ast.FunctionArgs(attributes.get('args', ''), - **self.exception_kwargs) - - self.name = name - self.decorator = attributes.get('decorator', '') - self.filter_args = ast.ArgumentList( - attributes.get('filter', ''), - **self.exception_kwargs) - - - is_block = True - - @property - def is_anonymous(self): - return self.name is None - - @property - def funcname(self): - return self.name or "__M_anon_%d" % (self.lineno, ) - - def get_argument_expressions(self, **kw): - return self.body_decl.get_argument_expressions(**kw) - - def declared_identifiers(self): - return self.body_decl.allargnames - - def undeclared_identifiers(self): - return (self.filter_args.\ - undeclared_identifiers.\ - difference(filters.DEFAULT_ESCAPES.keys()) - ).union(self.expression_undeclared_identifiers) - - - -class CallTag(Tag): - __keyword__ = 'call' - - def __init__(self, keyword, attributes, **kwargs): - super(CallTag, self).__init__(keyword, attributes, - ('args'), ('expr',), ('expr',), **kwargs) - self.expression = attributes['expr'] - self.code = ast.PythonCode(self.expression, **self.exception_kwargs) - self.body_decl = ast.FunctionArgs(attributes.get('args', ''), - **self.exception_kwargs) - - def declared_identifiers(self): - return self.code.declared_identifiers.union(self.body_decl.allargnames) - - def undeclared_identifiers(self): - return self.code.undeclared_identifiers.\ - difference(self.code.declared_identifiers) - -class CallNamespaceTag(Tag): - - def __init__(self, namespace, defname, attributes, **kwargs): - super(CallNamespaceTag, self).__init__( - namespace + ":" + defname, - attributes, - tuple(attributes.keys()) + ('args', ), - (), - (), - **kwargs) - - self.expression = "%s.%s(%s)" % ( - namespace, - defname, - ",".join(["%s=%s" % (k, v) for k, v in - self.parsed_attributes.items() - if k != 'args']) - ) - self.code = ast.PythonCode(self.expression, **self.exception_kwargs) - self.body_decl = ast.FunctionArgs( - attributes.get('args', ''), - **self.exception_kwargs) - - def declared_identifiers(self): - return self.code.declared_identifiers.union(self.body_decl.allargnames) - - def undeclared_identifiers(self): - return self.code.undeclared_identifiers.\ - difference(self.code.declared_identifiers) - -class InheritTag(Tag): - __keyword__ = 'inherit' - - def __init__(self, keyword, attributes, **kwargs): - super(InheritTag, self).__init__( - keyword, attributes, - ('file',), (), ('file',), **kwargs) - -class PageTag(Tag): - __keyword__ = 'page' - - def __init__(self, keyword, attributes, **kwargs): - expressions = ['cached', 'args', 'expression_filter', 'enable_loop'] + [ - c for c in attributes if c.startswith('cache_')] - - super(PageTag, self).__init__( - keyword, - attributes, - expressions, - (), - (), - **kwargs) - self.body_decl = ast.FunctionArgs(attributes.get('args', ''), - **self.exception_kwargs) - self.filter_args = ast.ArgumentList( - attributes.get('expression_filter', ''), - **self.exception_kwargs) - - def declared_identifiers(self): - return self.body_decl.allargnames - - diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/pygen.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/pygen.py deleted file mode 100644 index 5ba5125a4c7..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/pygen.py +++ /dev/null @@ -1,299 +0,0 @@ -# mako/pygen.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""utilities for generating and formatting literal Python code.""" - -import re -from mako import exceptions - -class PythonPrinter(object): - def __init__(self, stream): - # indentation counter - self.indent = 0 - - # a stack storing information about why we incremented - # the indentation counter, to help us determine if we - # should decrement it - self.indent_detail = [] - - # the string of whitespace multiplied by the indent - # counter to produce a line - self.indentstring = " " - - # the stream we are writing to - self.stream = stream - - # current line number - self.lineno = 1 - - # a list of lines that represents a buffered "block" of code, - # which can be later printed relative to an indent level - self.line_buffer = [] - - self.in_indent_lines = False - - self._reset_multi_line_flags() - - # mapping of generated python lines to template - # source lines - self.source_map = {} - - def _update_lineno(self, num): - self.lineno += num - - def start_source(self, lineno): - if self.lineno not in self.source_map: - self.source_map[self.lineno] = lineno - - def write_blanks(self, num): - self.stream.write("\n" * num) - self._update_lineno(num) - - def write_indented_block(self, block): - """print a line or lines of python which already contain indentation. - - The indentation of the total block of lines will be adjusted to that of - the current indent level.""" - self.in_indent_lines = False - for l in re.split(r'\r?\n', block): - self.line_buffer.append(l) - self._update_lineno(1) - - def writelines(self, *lines): - """print a series of lines of python.""" - for line in lines: - self.writeline(line) - - def writeline(self, line): - """print a line of python, indenting it according to the current - indent level. - - this also adjusts the indentation counter according to the - content of the line. - - """ - - if not self.in_indent_lines: - self._flush_adjusted_lines() - self.in_indent_lines = True - - if (line is None or - re.match(r"^\s*#",line) or - re.match(r"^\s*$", line) - ): - hastext = False - else: - hastext = True - - is_comment = line and len(line) and line[0] == '#' - - # see if this line should decrease the indentation level - if (not is_comment and - (not hastext or self._is_unindentor(line)) - ): - - if self.indent > 0: - self.indent -= 1 - # if the indent_detail stack is empty, the user - # probably put extra closures - the resulting - # module wont compile. - if len(self.indent_detail) == 0: - raise exceptions.SyntaxException( - "Too many whitespace closures") - self.indent_detail.pop() - - if line is None: - return - - # write the line - self.stream.write(self._indent_line(line) + "\n") - self._update_lineno(len(line.split("\n"))) - - # see if this line should increase the indentation level. - # note that a line can both decrase (before printing) and - # then increase (after printing) the indentation level. - - if re.search(r":[ \t]*(?:#.*)?$", line): - # increment indentation count, and also - # keep track of what the keyword was that indented us, - # if it is a python compound statement keyword - # where we might have to look for an "unindent" keyword - match = re.match(r"^\s*(if|try|elif|while|for|with)", line) - if match: - # its a "compound" keyword, so we will check for "unindentors" - indentor = match.group(1) - self.indent += 1 - self.indent_detail.append(indentor) - else: - indentor = None - # its not a "compound" keyword. but lets also - # test for valid Python keywords that might be indenting us, - # else assume its a non-indenting line - m2 = re.match(r"^\s*(def|class|else|elif|except|finally)", - line) - if m2: - self.indent += 1 - self.indent_detail.append(indentor) - - def close(self): - """close this printer, flushing any remaining lines.""" - self._flush_adjusted_lines() - - def _is_unindentor(self, line): - """return true if the given line is an 'unindentor', - relative to the last 'indent' event received. - - """ - - # no indentation detail has been pushed on; return False - if len(self.indent_detail) == 0: - return False - - indentor = self.indent_detail[-1] - - # the last indent keyword we grabbed is not a - # compound statement keyword; return False - if indentor is None: - return False - - # if the current line doesnt have one of the "unindentor" keywords, - # return False - match = re.match(r"^\s*(else|elif|except|finally).*\:", line) - if not match: - return False - - # whitespace matches up, we have a compound indentor, - # and this line has an unindentor, this - # is probably good enough - return True - - # should we decide that its not good enough, heres - # more stuff to check. - #keyword = match.group(1) - - # match the original indent keyword - #for crit in [ - # (r'if|elif', r'else|elif'), - # (r'try', r'except|finally|else'), - # (r'while|for', r'else'), - #]: - # if re.match(crit[0], indentor) and re.match(crit[1], keyword): - # return True - - #return False - - def _indent_line(self, line, stripspace=''): - """indent the given line according to the current indent level. - - stripspace is a string of space that will be truncated from the - start of the line before indenting.""" - - return re.sub(r"^%s" % stripspace, self.indentstring - * self.indent, line) - - def _reset_multi_line_flags(self): - """reset the flags which would indicate we are in a backslashed - or triple-quoted section.""" - - self.backslashed, self.triplequoted = False, False - - def _in_multi_line(self, line): - """return true if the given line is part of a multi-line block, - via backslash or triple-quote.""" - - # we are only looking for explicitly joined lines here, not - # implicit ones (i.e. brackets, braces etc.). this is just to - # guard against the possibility of modifying the space inside of - # a literal multiline string with unfortunately placed - # whitespace - - current_state = (self.backslashed or self.triplequoted) - - if re.search(r"\\$", line): - self.backslashed = True - else: - self.backslashed = False - - triples = len(re.findall(r"\"\"\"|\'\'\'", line)) - if triples == 1 or triples % 2 != 0: - self.triplequoted = not self.triplequoted - - return current_state - - def _flush_adjusted_lines(self): - stripspace = None - self._reset_multi_line_flags() - - for entry in self.line_buffer: - if self._in_multi_line(entry): - self.stream.write(entry + "\n") - else: - entry = entry.expandtabs() - if stripspace is None and re.search(r"^[ \t]*[^# \t]", entry): - stripspace = re.match(r"^([ \t]*)", entry).group(1) - self.stream.write(self._indent_line(entry, stripspace) + "\n") - - self.line_buffer = [] - self._reset_multi_line_flags() - - -def adjust_whitespace(text): - """remove the left-whitespace margin of a block of Python code.""" - - state = [False, False] - (backslashed, triplequoted) = (0, 1) - - def in_multi_line(line): - start_state = (state[backslashed] or state[triplequoted]) - - if re.search(r"\\$", line): - state[backslashed] = True - else: - state[backslashed] = False - - def match(reg, t): - m = re.match(reg, t) - if m: - return m, t[len(m.group(0)):] - else: - return None, t - - while line: - if state[triplequoted]: - m, line = match(r"%s" % state[triplequoted], line) - if m: - state[triplequoted] = False - else: - m, line = match(r".*?(?=%s|$)" % state[triplequoted], line) - else: - m, line = match(r'#', line) - if m: - return start_state - - m, line = match(r"\"\"\"|\'\'\'", line) - if m: - state[triplequoted] = m.group(0) - continue - - m, line = match(r".*?(?=\"\"\"|\'\'\'|#|$)", line) - - return start_state - - def _indent_line(line, stripspace=''): - return re.sub(r"^%s" % stripspace, '', line) - - lines = [] - stripspace = None - - for line in re.split(r'\r?\n', text): - if in_multi_line(line): - lines.append(line) - else: - line = line.expandtabs() - if stripspace is None and re.search(r"^[ \t]*[^# \t]", line): - stripspace = re.match(r"^([ \t]*)", line).group(1) - lines.append(_indent_line(line, stripspace)) - return "\n".join(lines) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/pyparser.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/pyparser.py deleted file mode 100644 index bfa46a9fafd..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/pyparser.py +++ /dev/null @@ -1,232 +0,0 @@ -# mako/pyparser.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""Handles parsing of Python code. - -Parsing to AST is done via _ast on Python > 2.5, otherwise the compiler -module is used. -""" - -from mako import exceptions, util, compat -from mako.compat import arg_stringname -import operator - -if compat.py3k: - # words that cannot be assigned to (notably - # smaller than the total keys in __builtins__) - reserved = set(['True', 'False', 'None', 'print']) - - # the "id" attribute on a function node - arg_id = operator.attrgetter('arg') -else: - # words that cannot be assigned to (notably - # smaller than the total keys in __builtins__) - reserved = set(['True', 'False', 'None']) - - # the "id" attribute on a function node - arg_id = operator.attrgetter('id') - -import _ast -util.restore__ast(_ast) -from mako import _ast_util - - -def parse(code, mode='exec', **exception_kwargs): - """Parse an expression into AST""" - - try: - return _ast_util.parse(code, '<unknown>', mode) - except Exception: - raise exceptions.SyntaxException( - "(%s) %s (%r)" % ( - compat.exception_as().__class__.__name__, - compat.exception_as(), - code[0:50] - ), **exception_kwargs) - - -class FindIdentifiers(_ast_util.NodeVisitor): - - def __init__(self, listener, **exception_kwargs): - self.in_function = False - self.in_assign_targets = False - self.local_ident_stack = set() - self.listener = listener - self.exception_kwargs = exception_kwargs - - def _add_declared(self, name): - if not self.in_function: - self.listener.declared_identifiers.add(name) - else: - self.local_ident_stack.add(name) - - def visit_ClassDef(self, node): - self._add_declared(node.name) - - def visit_Assign(self, node): - - # flip around the visiting of Assign so the expression gets - # evaluated first, in the case of a clause like "x=x+5" (x - # is undeclared) - - self.visit(node.value) - in_a = self.in_assign_targets - self.in_assign_targets = True - for n in node.targets: - self.visit(n) - self.in_assign_targets = in_a - - if compat.py3k: - - # ExceptHandler is in Python 2, but this block only works in - # Python 3 (and is required there) - - def visit_ExceptHandler(self, node): - if node.name is not None: - self._add_declared(node.name) - if node.type is not None: - self.visit(node.type) - for statement in node.body: - self.visit(statement) - - def visit_Lambda(self, node, *args): - self._visit_function(node, True) - - def visit_FunctionDef(self, node): - self._add_declared(node.name) - self._visit_function(node, False) - - def _expand_tuples(self, args): - for arg in args: - if isinstance(arg, _ast.Tuple): - for n in arg.elts: - yield n - else: - yield arg - - def _visit_function(self, node, islambda): - - # push function state onto stack. dont log any more - # identifiers as "declared" until outside of the function, - # but keep logging identifiers as "undeclared". track - # argument names in each function header so they arent - # counted as "undeclared" - - inf = self.in_function - self.in_function = True - - local_ident_stack = self.local_ident_stack - self.local_ident_stack = local_ident_stack.union([ - arg_id(arg) for arg in self._expand_tuples(node.args.args) - ]) - if islambda: - self.visit(node.body) - else: - for n in node.body: - self.visit(n) - self.in_function = inf - self.local_ident_stack = local_ident_stack - - def visit_For(self, node): - - # flip around visit - - self.visit(node.iter) - self.visit(node.target) - for statement in node.body: - self.visit(statement) - for statement in node.orelse: - self.visit(statement) - - def visit_Name(self, node): - if isinstance(node.ctx, _ast.Store): - # this is eqiuvalent to visit_AssName in - # compiler - self._add_declared(node.id) - elif node.id not in reserved and node.id \ - not in self.listener.declared_identifiers and node.id \ - not in self.local_ident_stack: - self.listener.undeclared_identifiers.add(node.id) - - def visit_Import(self, node): - for name in node.names: - if name.asname is not None: - self._add_declared(name.asname) - else: - self._add_declared(name.name.split('.')[0]) - - def visit_ImportFrom(self, node): - for name in node.names: - if name.asname is not None: - self._add_declared(name.asname) - else: - if name.name == '*': - raise exceptions.CompileException( - "'import *' is not supported, since all identifier " - "names must be explicitly declared. Please use the " - "form 'from <modulename> import <name1>, <name2>, " - "...' instead.", **self.exception_kwargs) - self._add_declared(name.name) - - -class FindTuple(_ast_util.NodeVisitor): - - def __init__(self, listener, code_factory, **exception_kwargs): - self.listener = listener - self.exception_kwargs = exception_kwargs - self.code_factory = code_factory - - def visit_Tuple(self, node): - for n in node.elts: - p = self.code_factory(n, **self.exception_kwargs) - self.listener.codeargs.append(p) - self.listener.args.append(ExpressionGenerator(n).value()) - self.listener.declared_identifiers = \ - self.listener.declared_identifiers.union( - p.declared_identifiers) - self.listener.undeclared_identifiers = \ - self.listener.undeclared_identifiers.union( - p.undeclared_identifiers) - - -class ParseFunc(_ast_util.NodeVisitor): - - def __init__(self, listener, **exception_kwargs): - self.listener = listener - self.exception_kwargs = exception_kwargs - - def visit_FunctionDef(self, node): - self.listener.funcname = node.name - - argnames = [arg_id(arg) for arg in node.args.args] - if node.args.vararg: - argnames.append(arg_stringname(node.args.vararg)) - - if compat.py2k: - # kw-only args don't exist in Python 2 - kwargnames = [] - else: - kwargnames = [arg_id(arg) for arg in node.args.kwonlyargs] - if node.args.kwarg: - kwargnames.append(arg_stringname(node.args.kwarg)) - self.listener.argnames = argnames - self.listener.defaults = node.args.defaults # ast - self.listener.kwargnames = kwargnames - if compat.py2k: - self.listener.kwdefaults = [] - else: - self.listener.kwdefaults = node.args.kw_defaults - self.listener.varargs = node.args.vararg - self.listener.kwargs = node.args.kwarg - -class ExpressionGenerator(object): - - def __init__(self, astnode): - self.generator = _ast_util.SourceGenerator(' ' * 4) - self.generator.visit(astnode) - - def value(self): - return ''.join(self.generator.result) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/runtime.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/runtime.py deleted file mode 100644 index 6b6a35a9215..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/runtime.py +++ /dev/null @@ -1,878 +0,0 @@ -# mako/runtime.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""provides runtime services for templates, including Context, -Namespace, and various helper functions.""" - -from mako import exceptions, util, compat -from mako.compat import compat_builtins -import sys - - -class Context(object): - """Provides runtime namespace, output buffer, and various - callstacks for templates. - - See :ref:`runtime_toplevel` for detail on the usage of - :class:`.Context`. - - """ - - def __init__(self, buffer, **data): - self._buffer_stack = [buffer] - - self._data = data - - self._kwargs = data.copy() - self._with_template = None - self._outputting_as_unicode = None - self.namespaces = {} - - # "capture" function which proxies to the - # generic "capture" function - self._data['capture'] = compat.partial(capture, self) - - # "caller" stack used by def calls with content - self.caller_stack = self._data['caller'] = CallerStack() - - def _set_with_template(self, t): - self._with_template = t - illegal_names = t.reserved_names.intersection(self._data) - if illegal_names: - raise exceptions.NameConflictError( - "Reserved words passed to render(): %s" % - ", ".join(illegal_names)) - - @property - def lookup(self): - """Return the :class:`.TemplateLookup` associated - with this :class:`.Context`. - - """ - return self._with_template.lookup - - @property - def kwargs(self): - """Return the dictionary of top level keyword arguments associated - with this :class:`.Context`. - - This dictionary only includes the top-level arguments passed to - :meth:`.Template.render`. It does not include names produced within - the template execution such as local variable names or special names - such as ``self``, ``next``, etc. - - The purpose of this dictionary is primarily for the case that - a :class:`.Template` accepts arguments via its ``<%page>`` tag, - which are normally expected to be passed via :meth:`.Template.render`, - except the template is being called in an inheritance context, - using the ``body()`` method. :attr:`.Context.kwargs` can then be - used to propagate these arguments to the inheriting template:: - - ${next.body(**context.kwargs)} - - """ - return self._kwargs.copy() - - def push_caller(self, caller): - """Push a ``caller`` callable onto the callstack for - this :class:`.Context`.""" - - - self.caller_stack.append(caller) - - def pop_caller(self): - """Pop a ``caller`` callable onto the callstack for this - :class:`.Context`.""" - - del self.caller_stack[-1] - - def keys(self): - """Return a list of all names established in this :class:`.Context`.""" - - return list(self._data.keys()) - - def __getitem__(self, key): - if key in self._data: - return self._data[key] - else: - return compat_builtins.__dict__[key] - - def _push_writer(self): - """push a capturing buffer onto this Context and return - the new writer function.""" - - buf = util.FastEncodingBuffer() - self._buffer_stack.append(buf) - return buf.write - - def _pop_buffer_and_writer(self): - """pop the most recent capturing buffer from this Context - and return the current writer after the pop. - - """ - - buf = self._buffer_stack.pop() - return buf, self._buffer_stack[-1].write - - def _push_buffer(self): - """push a capturing buffer onto this Context.""" - - self._push_writer() - - def _pop_buffer(self): - """pop the most recent capturing buffer from this Context.""" - - return self._buffer_stack.pop() - - def get(self, key, default=None): - """Return a value from this :class:`.Context`.""" - - return self._data.get(key, compat_builtins.__dict__.get(key, default)) - - def write(self, string): - """Write a string to this :class:`.Context` object's - underlying output buffer.""" - - self._buffer_stack[-1].write(string) - - def writer(self): - """Return the current writer function.""" - - return self._buffer_stack[-1].write - - def _copy(self): - c = Context.__new__(Context) - c._buffer_stack = self._buffer_stack - c._data = self._data.copy() - c._kwargs = self._kwargs - c._with_template = self._with_template - c._outputting_as_unicode = self._outputting_as_unicode - c.namespaces = self.namespaces - c.caller_stack = self.caller_stack - return c - - def _locals(self, d): - """Create a new :class:`.Context` with a copy of this - :class:`.Context`'s current state, - updated with the given dictionary. - - The :attr:`.Context.kwargs` collection remains - unaffected. - - - """ - - if not d: - return self - c = self._copy() - c._data.update(d) - return c - - def _clean_inheritance_tokens(self): - """create a new copy of this :class:`.Context`. with - tokens related to inheritance state removed.""" - - c = self._copy() - x = c._data - x.pop('self', None) - x.pop('parent', None) - x.pop('next', None) - return c - -class CallerStack(list): - def __init__(self): - self.nextcaller = None - - def __nonzero__(self): - return self.__bool__() - - def __bool__(self): - return len(self) and self._get_caller() and True or False - - def _get_caller(self): - # this method can be removed once - # codegen MAGIC_NUMBER moves past 7 - return self[-1] - - def __getattr__(self, key): - return getattr(self._get_caller(), key) - - def _push_frame(self): - frame = self.nextcaller or None - self.append(frame) - self.nextcaller = None - return frame - - def _pop_frame(self): - self.nextcaller = self.pop() - - -class Undefined(object): - """Represents an undefined value in a template. - - All template modules have a constant value - ``UNDEFINED`` present which is an instance of this - object. - - """ - def __str__(self): - raise NameError("Undefined") - - def __nonzero__(self): - return self.__bool__() - - def __bool__(self): - return False - -UNDEFINED = Undefined() - -class LoopStack(object): - """a stack for LoopContexts that implements the context manager protocol - to automatically pop off the top of the stack on context exit - """ - - def __init__(self): - self.stack = [] - - def _enter(self, iterable): - self._push(iterable) - return self._top - - def _exit(self): - self._pop() - return self._top - - @property - def _top(self): - if self.stack: - return self.stack[-1] - else: - return self - - def _pop(self): - return self.stack.pop() - - def _push(self, iterable): - new = LoopContext(iterable) - if self.stack: - new.parent = self.stack[-1] - return self.stack.append(new) - - def __getattr__(self, key): - raise exceptions.RuntimeException("No loop context is established") - - def __iter__(self): - return iter(self._top) - - -class LoopContext(object): - """A magic loop variable. - Automatically accessible in any ``% for`` block. - - See the section :ref:`loop_context` for usage - notes. - - :attr:`parent` -> :class:`.LoopContext` or ``None`` - The parent loop, if one exists. - :attr:`index` -> `int` - The 0-based iteration count. - :attr:`reverse_index` -> `int` - The number of iterations remaining. - :attr:`first` -> `bool` - ``True`` on the first iteration, ``False`` otherwise. - :attr:`last` -> `bool` - ``True`` on the last iteration, ``False`` otherwise. - :attr:`even` -> `bool` - ``True`` when ``index`` is even. - :attr:`odd` -> `bool` - ``True`` when ``index`` is odd. - """ - - def __init__(self, iterable): - self._iterable = iterable - self.index = 0 - self.parent = None - - def __iter__(self): - for i in self._iterable: - yield i - self.index += 1 - - @util.memoized_instancemethod - def __len__(self): - return len(self._iterable) - - @property - def reverse_index(self): - return len(self) - self.index - 1 - - @property - def first(self): - return self.index == 0 - - @property - def last(self): - return self.index == len(self) - 1 - - @property - def even(self): - return not self.odd - - @property - def odd(self): - return bool(self.index % 2) - - def cycle(self, *values): - """Cycle through values as the loop progresses. - """ - if not values: - raise ValueError("You must provide values to cycle through") - return values[self.index % len(values)] - - -class _NSAttr(object): - def __init__(self, parent): - self.__parent = parent - def __getattr__(self, key): - ns = self.__parent - while ns: - if hasattr(ns.module, key): - return getattr(ns.module, key) - else: - ns = ns.inherits - raise AttributeError(key) - -class Namespace(object): - """Provides access to collections of rendering methods, which - can be local, from other templates, or from imported modules. - - To access a particular rendering method referenced by a - :class:`.Namespace`, use plain attribute access: - - .. sourcecode:: mako - - ${some_namespace.foo(x, y, z)} - - :class:`.Namespace` also contains several built-in attributes - described here. - - """ - - def __init__(self, name, context, - callables=None, inherits=None, - populate_self=True, calling_uri=None): - self.name = name - self.context = context - self.inherits = inherits - if callables is not None: - self.callables = dict([(c.__name__, c) for c in callables]) - - callables = () - - module = None - """The Python module referenced by this :class:`.Namespace`. - - If the namespace references a :class:`.Template`, then - this module is the equivalent of ``template.module``, - i.e. the generated module for the template. - - """ - - template = None - """The :class:`.Template` object referenced by this - :class:`.Namespace`, if any. - - """ - - context = None - """The :class:`.Context` object for this :class:`.Namespace`. - - Namespaces are often created with copies of contexts that - contain slightly different data, particularly in inheritance - scenarios. Using the :class:`.Context` off of a :class:`.Namespace` one - can traverse an entire chain of templates that inherit from - one-another. - - """ - - filename = None - """The path of the filesystem file used for this - :class:`.Namespace`'s module or template. - - If this is a pure module-based - :class:`.Namespace`, this evaluates to ``module.__file__``. If a - template-based namespace, it evaluates to the original - template file location. - - """ - - uri = None - """The URI for this :class:`.Namespace`'s template. - - I.e. whatever was sent to :meth:`.TemplateLookup.get_template()`. - - This is the equivalent of :attr:`.Template.uri`. - - """ - - _templateuri = None - - @util.memoized_property - def attr(self): - """Access module level attributes by name. - - This accessor allows templates to supply "scalar" - attributes which are particularly handy in inheritance - relationships. - - .. seealso:: - - :ref:`inheritance_attr` - - :ref:`namespace_attr_for_includes` - - """ - return _NSAttr(self) - - def get_namespace(self, uri): - """Return a :class:`.Namespace` corresponding to the given ``uri``. - - If the given ``uri`` is a relative URI (i.e. it does not - contain a leading slash ``/``), the ``uri`` is adjusted to - be relative to the ``uri`` of the namespace itself. This - method is therefore mostly useful off of the built-in - ``local`` namespace, described in :ref:`namespace_local`. - - In - most cases, a template wouldn't need this function, and - should instead use the ``<%namespace>`` tag to load - namespaces. However, since all ``<%namespace>`` tags are - evaluated before the body of a template ever runs, - this method can be used to locate namespaces using - expressions that were generated within the body code of - the template, or to conditionally use a particular - namespace. - - """ - key = (self, uri) - if key in self.context.namespaces: - return self.context.namespaces[key] - else: - ns = TemplateNamespace(uri, self.context._copy(), - templateuri=uri, - calling_uri=self._templateuri) - self.context.namespaces[key] = ns - return ns - - def get_template(self, uri): - """Return a :class:`.Template` from the given ``uri``. - - The ``uri`` resolution is relative to the ``uri`` of this - :class:`.Namespace` object's :class:`.Template`. - - """ - return _lookup_template(self.context, uri, self._templateuri) - - def get_cached(self, key, **kwargs): - """Return a value from the :class:`.Cache` referenced by this - :class:`.Namespace` object's :class:`.Template`. - - The advantage to this method versus direct access to the - :class:`.Cache` is that the configuration parameters - declared in ``<%page>`` take effect here, thereby calling - up the same configured backend as that configured - by ``<%page>``. - - """ - - return self.cache.get(key, **kwargs) - - @property - def cache(self): - """Return the :class:`.Cache` object referenced - by this :class:`.Namespace` object's - :class:`.Template`. - - """ - return self.template.cache - - def include_file(self, uri, **kwargs): - """Include a file at the given ``uri``.""" - - _include_file(self.context, uri, self._templateuri, **kwargs) - - def _populate(self, d, l): - for ident in l: - if ident == '*': - for (k, v) in self._get_star(): - d[k] = v - else: - d[ident] = getattr(self, ident) - - def _get_star(self): - if self.callables: - for key in self.callables: - yield (key, self.callables[key]) - - def __getattr__(self, key): - if key in self.callables: - val = self.callables[key] - elif self.inherits: - val = getattr(self.inherits, key) - else: - raise AttributeError( - "Namespace '%s' has no member '%s'" % - (self.name, key)) - setattr(self, key, val) - return val - -class TemplateNamespace(Namespace): - """A :class:`.Namespace` specific to a :class:`.Template` instance.""" - - def __init__(self, name, context, template=None, templateuri=None, - callables=None, inherits=None, - populate_self=True, calling_uri=None): - self.name = name - self.context = context - self.inherits = inherits - if callables is not None: - self.callables = dict([(c.__name__, c) for c in callables]) - - if templateuri is not None: - self.template = _lookup_template(context, templateuri, - calling_uri) - self._templateuri = self.template.module._template_uri - elif template is not None: - self.template = template - self._templateuri = template.module._template_uri - else: - raise TypeError("'template' argument is required.") - - if populate_self: - lclcallable, lclcontext = \ - _populate_self_namespace(context, self.template, - self_ns=self) - - @property - def module(self): - """The Python module referenced by this :class:`.Namespace`. - - If the namespace references a :class:`.Template`, then - this module is the equivalent of ``template.module``, - i.e. the generated module for the template. - - """ - return self.template.module - - @property - def filename(self): - """The path of the filesystem file used for this - :class:`.Namespace`'s module or template. - """ - return self.template.filename - - @property - def uri(self): - """The URI for this :class:`.Namespace`'s template. - - I.e. whatever was sent to :meth:`.TemplateLookup.get_template()`. - - This is the equivalent of :attr:`.Template.uri`. - - """ - return self.template.uri - - def _get_star(self): - if self.callables: - for key in self.callables: - yield (key, self.callables[key]) - def get(key): - callable_ = self.template._get_def_callable(key) - return compat.partial(callable_, self.context) - for k in self.template.module._exports: - yield (k, get(k)) - - def __getattr__(self, key): - if key in self.callables: - val = self.callables[key] - elif self.template.has_def(key): - callable_ = self.template._get_def_callable(key) - val = compat.partial(callable_, self.context) - elif self.inherits: - val = getattr(self.inherits, key) - - else: - raise AttributeError( - "Namespace '%s' has no member '%s'" % - (self.name, key)) - setattr(self, key, val) - return val - -class ModuleNamespace(Namespace): - """A :class:`.Namespace` specific to a Python module instance.""" - - def __init__(self, name, context, module, - callables=None, inherits=None, - populate_self=True, calling_uri=None): - self.name = name - self.context = context - self.inherits = inherits - if callables is not None: - self.callables = dict([(c.__name__, c) for c in callables]) - - mod = __import__(module) - for token in module.split('.')[1:]: - mod = getattr(mod, token) - self.module = mod - - @property - def filename(self): - """The path of the filesystem file used for this - :class:`.Namespace`'s module or template. - """ - return self.module.__file__ - - def _get_star(self): - if self.callables: - for key in self.callables: - yield (key, self.callables[key]) - for key in dir(self.module): - if key[0] != '_': - callable_ = getattr(self.module, key) - if compat.callable(callable_): - yield key, compat.partial(callable_, self.context) - - - def __getattr__(self, key): - if key in self.callables: - val = self.callables[key] - elif hasattr(self.module, key): - callable_ = getattr(self.module, key) - val = compat.partial(callable_, self.context) - elif self.inherits: - val = getattr(self.inherits, key) - else: - raise AttributeError( - "Namespace '%s' has no member '%s'" % - (self.name, key)) - setattr(self, key, val) - return val - -def supports_caller(func): - """Apply a caller_stack compatibility decorator to a plain - Python function. - - See the example in :ref:`namespaces_python_modules`. - - """ - - def wrap_stackframe(context, *args, **kwargs): - context.caller_stack._push_frame() - try: - return func(context, *args, **kwargs) - finally: - context.caller_stack._pop_frame() - return wrap_stackframe - -def capture(context, callable_, *args, **kwargs): - """Execute the given template def, capturing the output into - a buffer. - - See the example in :ref:`namespaces_python_modules`. - - """ - - if not compat.callable(callable_): - raise exceptions.RuntimeException( - "capture() function expects a callable as " - "its argument (i.e. capture(func, *args, **kwargs))" - ) - context._push_buffer() - try: - callable_(*args, **kwargs) - finally: - buf = context._pop_buffer() - return buf.getvalue() - -def _decorate_toplevel(fn): - def decorate_render(render_fn): - def go(context, *args, **kw): - def y(*args, **kw): - return render_fn(context, *args, **kw) - try: - y.__name__ = render_fn.__name__[7:] - except TypeError: - # < Python 2.4 - pass - return fn(y)(context, *args, **kw) - return go - return decorate_render - -def _decorate_inline(context, fn): - def decorate_render(render_fn): - dec = fn(render_fn) - def go(*args, **kw): - return dec(context, *args, **kw) - return go - return decorate_render - -def _include_file(context, uri, calling_uri, **kwargs): - """locate the template from the given uri and include it in - the current output.""" - - template = _lookup_template(context, uri, calling_uri) - (callable_, ctx) = _populate_self_namespace( - context._clean_inheritance_tokens(), - template) - callable_(ctx, **_kwargs_for_include(callable_, context._data, **kwargs)) - -def _inherit_from(context, uri, calling_uri): - """called by the _inherit method in template modules to set - up the inheritance chain at the start of a template's - execution.""" - - if uri is None: - return None - template = _lookup_template(context, uri, calling_uri) - self_ns = context['self'] - ih = self_ns - while ih.inherits is not None: - ih = ih.inherits - lclcontext = context._locals({'next': ih}) - ih.inherits = TemplateNamespace("self:%s" % template.uri, - lclcontext, - template=template, - populate_self=False) - context._data['parent'] = lclcontext._data['local'] = ih.inherits - callable_ = getattr(template.module, '_mako_inherit', None) - if callable_ is not None: - ret = callable_(template, lclcontext) - if ret: - return ret - - gen_ns = getattr(template.module, '_mako_generate_namespaces', None) - if gen_ns is not None: - gen_ns(context) - return (template.callable_, lclcontext) - -def _lookup_template(context, uri, relativeto): - lookup = context._with_template.lookup - if lookup is None: - raise exceptions.TemplateLookupException( - "Template '%s' has no TemplateLookup associated" % - context._with_template.uri) - uri = lookup.adjust_uri(uri, relativeto) - try: - return lookup.get_template(uri) - except exceptions.TopLevelLookupException: - raise exceptions.TemplateLookupException(str(compat.exception_as())) - -def _populate_self_namespace(context, template, self_ns=None): - if self_ns is None: - self_ns = TemplateNamespace('self:%s' % template.uri, - context, template=template, - populate_self=False) - context._data['self'] = context._data['local'] = self_ns - if hasattr(template.module, '_mako_inherit'): - ret = template.module._mako_inherit(template, context) - if ret: - return ret - return (template.callable_, context) - -def _render(template, callable_, args, data, as_unicode=False): - """create a Context and return the string - output of the given template and template callable.""" - - if as_unicode: - buf = util.FastEncodingBuffer(as_unicode=True) - elif template.bytestring_passthrough: - buf = compat.StringIO() - else: - buf = util.FastEncodingBuffer( - as_unicode=as_unicode, - encoding=template.output_encoding, - errors=template.encoding_errors) - context = Context(buf, **data) - context._outputting_as_unicode = as_unicode - context._set_with_template(template) - - _render_context(template, callable_, context, *args, - **_kwargs_for_callable(callable_, data)) - return context._pop_buffer().getvalue() - -def _kwargs_for_callable(callable_, data): - argspec = compat.inspect_func_args(callable_) - # for normal pages, **pageargs is usually present - if argspec[2]: - return data - - # for rendering defs from the top level, figure out the args - namedargs = argspec[0] + [v for v in argspec[1:3] if v is not None] - kwargs = {} - for arg in namedargs: - if arg != 'context' and arg in data and arg not in kwargs: - kwargs[arg] = data[arg] - return kwargs - -def _kwargs_for_include(callable_, data, **kwargs): - argspec = compat.inspect_func_args(callable_) - namedargs = argspec[0] + [v for v in argspec[1:3] if v is not None] - for arg in namedargs: - if arg != 'context' and arg in data and arg not in kwargs: - kwargs[arg] = data[arg] - return kwargs - -def _render_context(tmpl, callable_, context, *args, **kwargs): - import mako.template as template - # create polymorphic 'self' namespace for this - # template with possibly updated context - if not isinstance(tmpl, template.DefTemplate): - # if main render method, call from the base of the inheritance stack - (inherit, lclcontext) = _populate_self_namespace(context, tmpl) - _exec_template(inherit, lclcontext, args=args, kwargs=kwargs) - else: - # otherwise, call the actual rendering method specified - (inherit, lclcontext) = _populate_self_namespace(context, tmpl.parent) - _exec_template(callable_, context, args=args, kwargs=kwargs) - -def _exec_template(callable_, context, args=None, kwargs=None): - """execute a rendering callable given the callable, a - Context, and optional explicit arguments - - the contextual Template will be located if it exists, and - the error handling options specified on that Template will - be interpreted here. - """ - template = context._with_template - if template is not None and \ - (template.format_exceptions or template.error_handler): - try: - callable_(context, *args, **kwargs) - except Exception: - _render_error(template, context, compat.exception_as()) - except: - e = sys.exc_info()[0] - _render_error(template, context, e) - else: - callable_(context, *args, **kwargs) - -def _render_error(template, context, error): - if template.error_handler: - result = template.error_handler(context, error) - if not result: - compat.reraise(*sys.exc_info()) - else: - error_template = exceptions.html_error_template() - if context._outputting_as_unicode: - context._buffer_stack[:] = [ - util.FastEncodingBuffer(as_unicode=True)] - else: - context._buffer_stack[:] = [util.FastEncodingBuffer( - error_template.output_encoding, - error_template.encoding_errors)] - - context._set_with_template(error_template) - error_template.render_context(context, error=error) diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/template.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/template.py deleted file mode 100644 index fb6106289fa..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/template.py +++ /dev/null @@ -1,705 +0,0 @@ -# mako/template.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -"""Provides the Template class, a facade for parsing, generating and executing -template strings, as well as template runtime operations.""" - -from mako.lexer import Lexer -from mako import runtime, util, exceptions, codegen, cache, compat -import os -import re -import shutil -import stat -import sys -import tempfile -import types -import weakref - - -class Template(object): - """Represents a compiled template. - - :class:`.Template` includes a reference to the original - template source (via the :attr:`.source` attribute) - as well as the source code of the - generated Python module (i.e. the :attr:`.code` attribute), - as well as a reference to an actual Python module. - - :class:`.Template` is constructed using either a literal string - representing the template text, or a filename representing a filesystem - path to a source file. - - :param text: textual template source. This argument is mutually - exclusive versus the ``filename`` parameter. - - :param filename: filename of the source template. This argument is - mutually exclusive versus the ``text`` parameter. - - :param buffer_filters: string list of filters to be applied - to the output of ``%def``\ s which are buffered, cached, or otherwise - filtered, after all filters - defined with the ``%def`` itself have been applied. Allows the - creation of default expression filters that let the output - of return-valued ``%def``\ s "opt out" of that filtering via - passing special attributes or objects. - - :param bytestring_passthrough: When ``True``, and ``output_encoding`` is - set to ``None``, and :meth:`.Template.render` is used to render, - the `StringIO` or `cStringIO` buffer will be used instead of the - default "fast" buffer. This allows raw bytestrings in the - output stream, such as in expressions, to pass straight - through to the buffer. This flag is forced - to ``True`` if ``disable_unicode`` is also configured. - - .. versionadded:: 0.4 - Added to provide the same behavior as that of the previous series. - - :param cache_args: Dictionary of cache configuration arguments that - will be passed to the :class:`.CacheImpl`. See :ref:`caching_toplevel`. - - :param cache_dir: - - .. deprecated:: 0.6 - Use the ``'dir'`` argument in the ``cache_args`` dictionary. - See :ref:`caching_toplevel`. - - :param cache_enabled: Boolean flag which enables caching of this - template. See :ref:`caching_toplevel`. - - :param cache_impl: String name of a :class:`.CacheImpl` caching - implementation to use. Defaults to ``'beaker'``. - - :param cache_type: - - .. deprecated:: 0.6 - Use the ``'type'`` argument in the ``cache_args`` dictionary. - See :ref:`caching_toplevel`. - - :param cache_url: - - .. deprecated:: 0.6 - Use the ``'url'`` argument in the ``cache_args`` dictionary. - See :ref:`caching_toplevel`. - - :param default_filters: List of string filter names that will - be applied to all expressions. See :ref:`filtering_default_filters`. - - :param disable_unicode: Disables all awareness of Python Unicode - objects. See :ref:`unicode_disabled`. - - :param enable_loop: When ``True``, enable the ``loop`` context variable. - This can be set to ``False`` to support templates that may - be making usage of the name "``loop``". Individual templates can - re-enable the "loop" context by placing the directive - ``enable_loop="True"`` inside the ``<%page>`` tag -- see - :ref:`migrating_loop`. - - :param encoding_errors: Error parameter passed to ``encode()`` when - string encoding is performed. See :ref:`usage_unicode`. - - :param error_handler: Python callable which is called whenever - compile or runtime exceptions occur. The callable is passed - the current context as well as the exception. If the - callable returns ``True``, the exception is considered to - be handled, else it is re-raised after the function - completes. Is used to provide custom error-rendering - functions. - - :param format_exceptions: if ``True``, exceptions which occur during - the render phase of this template will be caught and - formatted into an HTML error page, which then becomes the - rendered result of the :meth:`.render` call. Otherwise, - runtime exceptions are propagated outwards. - - :param imports: String list of Python statements, typically individual - "import" lines, which will be placed into the module level - preamble of all generated Python modules. See the example - in :ref:`filtering_default_filters`. - - :param future_imports: String list of names to import from `__future__`. - These will be concatenated into a comma-separated string and inserted - into the beginning of the template, e.g. ``futures_imports=['FOO', - 'BAR']`` results in ``from __future__ import FOO, BAR``. If you're - interested in using features like the new division operator, you must - use future_imports to convey that to the renderer, as otherwise the - import will not appear as the first executed statement in the generated - code and will therefore not have the desired effect. - - :param input_encoding: Encoding of the template's source code. Can - be used in lieu of the coding comment. See - :ref:`usage_unicode` as well as :ref:`unicode_toplevel` for - details on source encoding. - - :param lookup: a :class:`.TemplateLookup` instance that will be used - for all file lookups via the ``<%namespace>``, - ``<%include>``, and ``<%inherit>`` tags. See - :ref:`usage_templatelookup`. - - :param module_directory: Filesystem location where generated - Python module files will be placed. - - :param module_filename: Overrides the filename of the generated - Python module file. For advanced usage only. - - :param module_writer: A callable which overrides how the Python - module is written entirely. The callable is passed the - encoded source content of the module and the destination - path to be written to. The default behavior of module writing - uses a tempfile in conjunction with a file move in order - to make the operation atomic. So a user-defined module - writing function that mimics the default behavior would be: - - .. sourcecode:: python - - import tempfile - import os - import shutil - - def module_writer(source, outputpath): - (dest, name) = \\ - tempfile.mkstemp( - dir=os.path.dirname(outputpath) - ) - - os.write(dest, source) - os.close(dest) - shutil.move(name, outputpath) - - from mako.template import Template - mytemplate = Template( - filename="index.html", - module_directory="/path/to/modules", - module_writer=module_writer - ) - - The function is provided for unusual configurations where - certain platform-specific permissions or other special - steps are needed. - - :param output_encoding: The encoding to use when :meth:`.render` - is called. - See :ref:`usage_unicode` as well as :ref:`unicode_toplevel`. - - :param preprocessor: Python callable which will be passed - the full template source before it is parsed. The return - result of the callable will be used as the template source - code. - - :param lexer_cls: A :class:`.Lexer` class used to parse - the template. The :class:`.Lexer` class is used by - default. - - .. versionadded:: 0.7.4 - - :param strict_undefined: Replaces the automatic usage of - ``UNDEFINED`` for any undeclared variables not located in - the :class:`.Context` with an immediate raise of - ``NameError``. The advantage is immediate reporting of - missing variables which include the name. - - .. versionadded:: 0.3.6 - - :param uri: string URI or other identifier for this template. - If not provided, the ``uri`` is generated from the filesystem - path, or from the in-memory identity of a non-file-based - template. The primary usage of the ``uri`` is to provide a key - within :class:`.TemplateLookup`, as well as to generate the - file path of the generated Python module file, if - ``module_directory`` is specified. - - """ - - lexer_cls = Lexer - - def __init__(self, - text=None, - filename=None, - uri=None, - format_exceptions=False, - error_handler=None, - lookup=None, - output_encoding=None, - encoding_errors='strict', - module_directory=None, - cache_args=None, - cache_impl='beaker', - cache_enabled=True, - cache_type=None, - cache_dir=None, - cache_url=None, - module_filename=None, - input_encoding=None, - disable_unicode=False, - module_writer=None, - bytestring_passthrough=False, - default_filters=None, - buffer_filters=(), - strict_undefined=False, - imports=None, - future_imports=None, - enable_loop=True, - preprocessor=None, - lexer_cls=None): - if uri: - self.module_id = re.sub(r'\W', "_", uri) - self.uri = uri - elif filename: - self.module_id = re.sub(r'\W', "_", filename) - drive, path = os.path.splitdrive(filename) - path = os.path.normpath(path).replace(os.path.sep, "/") - self.uri = path - else: - self.module_id = "memory:" + hex(id(self)) - self.uri = self.module_id - - u_norm = self.uri - if u_norm.startswith("/"): - u_norm = u_norm[1:] - u_norm = os.path.normpath(u_norm) - if u_norm.startswith(".."): - raise exceptions.TemplateLookupException( - "Template uri \"%s\" is invalid - " - "it cannot be relative outside " - "of the root path." % self.uri) - - self.input_encoding = input_encoding - self.output_encoding = output_encoding - self.encoding_errors = encoding_errors - self.disable_unicode = disable_unicode - self.bytestring_passthrough = bytestring_passthrough or disable_unicode - self.enable_loop = enable_loop - self.strict_undefined = strict_undefined - self.module_writer = module_writer - - if compat.py3k and disable_unicode: - raise exceptions.UnsupportedError( - "Mako for Python 3 does not " - "support disabling Unicode") - elif output_encoding and disable_unicode: - raise exceptions.UnsupportedError( - "output_encoding must be set to " - "None when disable_unicode is used.") - if default_filters is None: - if compat.py3k or self.disable_unicode: - self.default_filters = ['str'] - else: - self.default_filters = ['unicode'] - else: - self.default_filters = default_filters - self.buffer_filters = buffer_filters - - self.imports = imports - self.future_imports = future_imports - self.preprocessor = preprocessor - - if lexer_cls is not None: - self.lexer_cls = lexer_cls - - # if plain text, compile code in memory only - if text is not None: - (code, module) = _compile_text(self, text, filename) - self._code = code - self._source = text - ModuleInfo(module, None, self, filename, code, text) - elif filename is not None: - # if template filename and a module directory, load - # a filesystem-based module file, generating if needed - if module_filename is not None: - path = module_filename - elif module_directory is not None: - path = os.path.abspath( - os.path.join( - os.path.normpath(module_directory), - u_norm + ".py" - ) - ) - else: - path = None - module = self._compile_from_file(path, filename) - else: - raise exceptions.RuntimeException( - "Template requires text or filename") - - self.module = module - self.filename = filename - self.callable_ = self.module.render_body - self.format_exceptions = format_exceptions - self.error_handler = error_handler - self.lookup = lookup - - self.module_directory = module_directory - - self._setup_cache_args( - cache_impl, cache_enabled, cache_args, - cache_type, cache_dir, cache_url - ) - - - @util.memoized_property - def reserved_names(self): - if self.enable_loop: - return codegen.RESERVED_NAMES - else: - return codegen.RESERVED_NAMES.difference(['loop']) - - def _setup_cache_args(self, - cache_impl, cache_enabled, cache_args, - cache_type, cache_dir, cache_url): - self.cache_impl = cache_impl - self.cache_enabled = cache_enabled - if cache_args: - self.cache_args = cache_args - else: - self.cache_args = {} - - # transfer deprecated cache_* args - if cache_type: - self.cache_args['type'] = cache_type - if cache_dir: - self.cache_args['dir'] = cache_dir - if cache_url: - self.cache_args['url'] = cache_url - - def _compile_from_file(self, path, filename): - if path is not None: - util.verify_directory(os.path.dirname(path)) - filemtime = os.stat(filename)[stat.ST_MTIME] - if not os.path.exists(path) or \ - os.stat(path)[stat.ST_MTIME] < filemtime: - data = util.read_file(filename) - _compile_module_file( - self, - data, - filename, - path, - self.module_writer) - module = compat.load_module(self.module_id, path) - del sys.modules[self.module_id] - if module._magic_number != codegen.MAGIC_NUMBER: - data = util.read_file(filename) - _compile_module_file( - self, - data, - filename, - path, - self.module_writer) - module = compat.load_module(self.module_id, path) - del sys.modules[self.module_id] - ModuleInfo(module, path, self, filename, None, None) - else: - # template filename and no module directory, compile code - # in memory - data = util.read_file(filename) - code, module = _compile_text( - self, - data, - filename) - self._source = None - self._code = code - ModuleInfo(module, None, self, filename, code, None) - return module - - @property - def source(self): - """Return the template source code for this :class:`.Template`.""" - - return _get_module_info_from_callable(self.callable_).source - - @property - def code(self): - """Return the module source code for this :class:`.Template`.""" - - return _get_module_info_from_callable(self.callable_).code - - @util.memoized_property - def cache(self): - return cache.Cache(self) - - @property - def cache_dir(self): - return self.cache_args['dir'] - @property - def cache_url(self): - return self.cache_args['url'] - @property - def cache_type(self): - return self.cache_args['type'] - - def render(self, *args, **data): - """Render the output of this template as a string. - - If the template specifies an output encoding, the string - will be encoded accordingly, else the output is raw (raw - output uses `cStringIO` and can't handle multibyte - characters). A :class:`.Context` object is created corresponding - to the given data. Arguments that are explicitly declared - by this template's internal rendering method are also - pulled from the given ``*args``, ``**data`` members. - - """ - return runtime._render(self, self.callable_, args, data) - - def render_unicode(self, *args, **data): - """Render the output of this template as a unicode object.""" - - return runtime._render(self, - self.callable_, - args, - data, - as_unicode=True) - - def render_context(self, context, *args, **kwargs): - """Render this :class:`.Template` with the given context. - - The data is written to the context's buffer. - - """ - if getattr(context, '_with_template', None) is None: - context._set_with_template(self) - runtime._render_context(self, - self.callable_, - context, - *args, - **kwargs) - - def has_def(self, name): - return hasattr(self.module, "render_%s" % name) - - def get_def(self, name): - """Return a def of this template as a :class:`.DefTemplate`.""" - - return DefTemplate(self, getattr(self.module, "render_%s" % name)) - - def _get_def_callable(self, name): - return getattr(self.module, "render_%s" % name) - - @property - def last_modified(self): - return self.module._modified_time - -class ModuleTemplate(Template): - """A Template which is constructed given an existing Python module. - - e.g.:: - - t = Template("this is a template") - f = file("mymodule.py", "w") - f.write(t.code) - f.close() - - import mymodule - - t = ModuleTemplate(mymodule) - print t.render() - - """ - - def __init__(self, module, - module_filename=None, - template=None, - template_filename=None, - module_source=None, - template_source=None, - output_encoding=None, - encoding_errors='strict', - disable_unicode=False, - bytestring_passthrough=False, - format_exceptions=False, - error_handler=None, - lookup=None, - cache_args=None, - cache_impl='beaker', - cache_enabled=True, - cache_type=None, - cache_dir=None, - cache_url=None, - ): - self.module_id = re.sub(r'\W', "_", module._template_uri) - self.uri = module._template_uri - self.input_encoding = module._source_encoding - self.output_encoding = output_encoding - self.encoding_errors = encoding_errors - self.disable_unicode = disable_unicode - self.bytestring_passthrough = bytestring_passthrough or disable_unicode - self.enable_loop = module._enable_loop - - if compat.py3k and disable_unicode: - raise exceptions.UnsupportedError( - "Mako for Python 3 does not " - "support disabling Unicode") - elif output_encoding and disable_unicode: - raise exceptions.UnsupportedError( - "output_encoding must be set to " - "None when disable_unicode is used.") - - self.module = module - self.filename = template_filename - ModuleInfo(module, - module_filename, - self, - template_filename, - module_source, - template_source) - - self.callable_ = self.module.render_body - self.format_exceptions = format_exceptions - self.error_handler = error_handler - self.lookup = lookup - self._setup_cache_args( - cache_impl, cache_enabled, cache_args, - cache_type, cache_dir, cache_url - ) - -class DefTemplate(Template): - """A :class:`.Template` which represents a callable def in a parent - template.""" - - def __init__(self, parent, callable_): - self.parent = parent - self.callable_ = callable_ - self.output_encoding = parent.output_encoding - self.module = parent.module - self.encoding_errors = parent.encoding_errors - self.format_exceptions = parent.format_exceptions - self.error_handler = parent.error_handler - self.enable_loop = parent.enable_loop - self.lookup = parent.lookup - self.bytestring_passthrough = parent.bytestring_passthrough - - def get_def(self, name): - return self.parent.get_def(name) - -class ModuleInfo(object): - """Stores information about a module currently loaded into - memory, provides reverse lookups of template source, module - source code based on a module's identifier. - - """ - _modules = weakref.WeakValueDictionary() - - def __init__(self, - module, - module_filename, - template, - template_filename, - module_source, - template_source): - self.module = module - self.module_filename = module_filename - self.template_filename = template_filename - self.module_source = module_source - self.template_source = template_source - self._modules[module.__name__] = template._mmarker = self - if module_filename: - self._modules[module_filename] = self - - @classmethod - def get_module_source_metadata(cls, module_source, full_line_map=False): - source_map = re.search( - r"__M_BEGIN_METADATA(.+?)__M_END_METADATA", - module_source, re.S).group(1) - source_map = compat.json.loads(source_map) - source_map['line_map'] = dict((int(k), int(v)) - for k, v in source_map['line_map'].items()) - if full_line_map: - f_line_map = source_map['full_line_map'] = [] - line_map = source_map['line_map'] - - curr_templ_line = 1 - for mod_line in range(1, max(line_map)): - if mod_line in line_map: - curr_templ_line = line_map[mod_line] - f_line_map.append(curr_templ_line) - return source_map - - @property - def code(self): - if self.module_source is not None: - return self.module_source - else: - return util.read_python_file(self.module_filename) - - @property - def source(self): - if self.template_source is not None: - if self.module._source_encoding and \ - not isinstance(self.template_source, compat.text_type): - return self.template_source.decode( - self.module._source_encoding) - else: - return self.template_source - else: - data = util.read_file(self.template_filename) - if self.module._source_encoding: - return data.decode(self.module._source_encoding) - else: - return data - -def _compile(template, text, filename, generate_magic_comment): - lexer = template.lexer_cls(text, - filename, - disable_unicode=template.disable_unicode, - input_encoding=template.input_encoding, - preprocessor=template.preprocessor) - node = lexer.parse() - source = codegen.compile(node, - template.uri, - filename, - default_filters=template.default_filters, - buffer_filters=template.buffer_filters, - imports=template.imports, - future_imports=template.future_imports, - source_encoding=lexer.encoding, - generate_magic_comment=generate_magic_comment, - disable_unicode=template.disable_unicode, - strict_undefined=template.strict_undefined, - enable_loop=template.enable_loop, - reserved_names=template.reserved_names) - return source, lexer - -def _compile_text(template, text, filename): - identifier = template.module_id - source, lexer = _compile(template, text, filename, - generate_magic_comment=template.disable_unicode) - - cid = identifier - if not compat.py3k and isinstance(cid, compat.text_type): - cid = cid.encode() - module = types.ModuleType(cid) - code = compile(source, cid, 'exec') - - # this exec() works for 2.4->3.3. - exec(code, module.__dict__, module.__dict__) - return (source, module) - -def _compile_module_file(template, text, filename, outputpath, module_writer): - source, lexer = _compile(template, text, filename, - generate_magic_comment=True) - - if isinstance(source, compat.text_type): - source = source.encode(lexer.encoding or 'ascii') - - if module_writer: - module_writer(source, outputpath) - else: - # make tempfiles in the same location as the ultimate - # location. this ensures they're on the same filesystem, - # avoiding synchronization issues. - (dest, name) = tempfile.mkstemp(dir=os.path.dirname(outputpath)) - - os.write(dest, source) - os.close(dest) - shutil.move(name, outputpath) - -def _get_module_info_from_callable(callable_): - if compat.py3k: - return _get_module_info(callable_.__globals__['__name__']) - else: - return _get_module_info(callable_.func_globals['__name__']) - -def _get_module_info(filename): - return ModuleInfo._modules[filename] - diff --git a/src/gallium/drivers/swr/rasterizer/codegen/mako/util.py b/src/gallium/drivers/swr/rasterizer/codegen/mako/util.py deleted file mode 100644 index cba2ab7920c..00000000000 --- a/src/gallium/drivers/swr/rasterizer/codegen/mako/util.py +++ /dev/null @@ -1,360 +0,0 @@ -# mako/util.py -# Copyright (C) 2006-2015 the Mako authors and contributors <see AUTHORS file> -# -# This module is part of Mako and is released under -# the MIT License: http://www.opensource.org/licenses/mit-license.php - -import re -import collections -import codecs -import os -from mako import compat -import operator - -def update_wrapper(decorated, fn): - decorated.__wrapped__ = fn - decorated.__name__ = fn.__name__ - return decorated - - -class PluginLoader(object): - def __init__(self, group): - self.group = group - self.impls = {} - - def load(self, name): - if name in self.impls: - return self.impls[name]() - else: - import pkg_resources - for impl in pkg_resources.iter_entry_points( - self.group, - name): - self.impls[name] = impl.load - return impl.load() - else: - from mako import exceptions - raise exceptions.RuntimeException( - "Can't load plugin %s %s" % - (self.group, name)) - - def register(self, name, modulepath, objname): - def load(): - mod = __import__(modulepath) - for token in modulepath.split(".")[1:]: - mod = getattr(mod, token) - return getattr(mod, objname) - self.impls[name] = load - -def verify_directory(dir): - """create and/or verify a filesystem directory.""" - - tries = 0 - - while not os.path.exists(dir): - try: - tries += 1 - os.makedirs(dir, compat.octal("0775")) - except: - if tries > 5: - raise - -def to_list(x, default=None): - if x is None: - return default - if not isinstance(x, (list, tuple)): - return [x] - else: - return x - - -class memoized_property(object): - """A read-only @property that is only evaluated once.""" - def __init__(self, fget, doc=None): - self.fget = fget - self.__doc__ = doc or fget.__doc__ - self.__name__ = fget.__name__ - - def __get__(self, obj, cls): - if obj is None: - return self - obj.__dict__[self.__name__] = result = self.fget(obj) - return result - -class memoized_instancemethod(object): - """Decorate a method memoize its return value. - - Best applied to no-arg methods: memoization is not sensitive to - argument values, and will always return the same value even when - called with different arguments. - - """ - def __init__(self, fget, doc=None): - self.fget = fget - self.__doc__ = doc or fget.__doc__ - self.__name__ = fget.__name__ - - def __get__(self, obj, cls): - if obj is None: - return self - def oneshot(*args, **kw): - result = self.fget(obj, *args, **kw) - memo = lambda *a, **kw: result - memo.__name__ = self.__name__ - memo.__doc__ = self.__doc__ - obj.__dict__[self.__name__] = memo - return result - oneshot.__name__ = self.__name__ - oneshot.__doc__ = self.__doc__ - return oneshot - -class SetLikeDict(dict): - """a dictionary that has some setlike methods on it""" - def union(self, other): - """produce a 'union' of this dict and another (at the key level). - - values in the second dict take precedence over that of the first""" - x = SetLikeDict(**self) - x.update(other) - return x - -class FastEncodingBuffer(object): - """a very rudimentary buffer that is faster than StringIO, - but doesn't crash on unicode data like cStringIO.""" - - def __init__(self, encoding=None, errors='strict', as_unicode=False): - self.data = collections.deque() - self.encoding = encoding - if as_unicode: - self.delim = compat.u('') - else: - self.delim = '' - self.as_unicode = as_unicode - self.errors = errors - self.write = self.data.append - - def truncate(self): - self.data = collections.deque() - self.write = self.data.append - - def getvalue(self): - if self.encoding: - return self.delim.join(self.data).encode(self.encoding, - self.errors) - else: - return self.delim.join(self.data) - -class LRUCache(dict): - """A dictionary-like object that stores a limited number of items, - discarding lesser used items periodically. - - this is a rewrite of LRUCache from Myghty to use a periodic timestamp-based - paradigm so that synchronization is not really needed. the size management - is inexact. - """ - - class _Item(object): - def __init__(self, key, value): - self.key = key - self.value = value - self.timestamp = compat.time_func() - def __repr__(self): - return repr(self.value) - - def __init__(self, capacity, threshold=.5): - self.capacity = capacity - self.threshold = threshold - - def __getitem__(self, key): - item = dict.__getitem__(self, key) - item.timestamp = compat.time_func() - return item.value - - def values(self): - return [i.value for i in dict.values(self)] - - def setdefault(self, key, value): - if key in self: - return self[key] - else: - self[key] = value - return value - - def __setitem__(self, key, value): - item = dict.get(self, key) - if item is None: - item = self._Item(key, value) - dict.__setitem__(self, key, item) - else: - item.value = value - self._manage_size() - - def _manage_size(self): - while len(self) > self.capacity + self.capacity * self.threshold: - bytime = sorted(dict.values(self), - key=operator.attrgetter('timestamp'), reverse=True) - for item in bytime[self.capacity:]: - try: - del self[item.key] - except KeyError: - # if we couldn't find a key, most likely some other thread - # broke in on us. loop around and try again - break - -# Regexp to match python magic encoding line -_PYTHON_MAGIC_COMMENT_re = re.compile( - r'[ \t\f]* \# .* coding[=:][ \t]*([-\w.]+)', - re.VERBOSE) - -def parse_encoding(fp): - """Deduce the encoding of a Python source file (binary mode) from magic - comment. - - It does this in the same way as the `Python interpreter`__ - - .. __: http://docs.python.org/ref/encodings.html - - The ``fp`` argument should be a seekable file object in binary mode. - """ - pos = fp.tell() - fp.seek(0) - try: - line1 = fp.readline() - has_bom = line1.startswith(codecs.BOM_UTF8) - if has_bom: - line1 = line1[len(codecs.BOM_UTF8):] - - m = _PYTHON_MAGIC_COMMENT_re.match(line1.decode('ascii', 'ignore')) - if not m: - try: - import parser - parser.suite(line1.decode('ascii', 'ignore')) - except (ImportError, SyntaxError): - # Either it's a real syntax error, in which case the source - # is not valid python source, or line2 is a continuation of - # line1, in which case we don't want to scan line2 for a magic - # comment. - pass - else: - line2 = fp.readline() - m = _PYTHON_MAGIC_COMMENT_re.match( - line2.decode('ascii', 'ignore')) - - if has_bom: - if m: - raise SyntaxError("python refuses to compile code with both a UTF8" \ - " byte-order-mark and a magic encoding comment") - return 'utf_8' - elif m: - return m.group(1) - else: - return None - finally: - fp.seek(pos) - -def sorted_dict_repr(d): - """repr() a dictionary with the keys in order. - - Used by the lexer unit test to compare parse trees based on strings. - - """ - keys = list(d.keys()) - keys.sort() - return "{" + ", ".join(["%r: %r" % (k, d[k]) for k in keys]) + "}" - -def restore__ast(_ast): - """Attempt to restore the required classes to the _ast module if it - appears to be missing them - """ - if hasattr(_ast, 'AST'): - return - _ast.PyCF_ONLY_AST = 2 << 9 - m = compile("""\ -def foo(): pass -class Bar(object): pass -if False: pass -baz = 'mako' -1 + 2 - 3 * 4 / 5 -6 // 7 % 8 << 9 >> 10 -11 & 12 ^ 13 | 14 -15 and 16 or 17 --baz + (not +18) - ~17 -baz and 'foo' or 'bar' -(mako is baz == baz) is not baz != mako -mako > baz < mako >= baz <= mako -mako in baz not in mako""", '<unknown>', 'exec', _ast.PyCF_ONLY_AST) - _ast.Module = type(m) - - for cls in _ast.Module.__mro__: - if cls.__name__ == 'mod': - _ast.mod = cls - elif cls.__name__ == 'AST': - _ast.AST = cls - - _ast.FunctionDef = type(m.body[0]) - _ast.ClassDef = type(m.body[1]) - _ast.If = type(m.body[2]) - - _ast.Name = type(m.body[3].targets[0]) - _ast.Store = type(m.body[3].targets[0].ctx) - _ast.Str = type(m.body[3].value) - - _ast.Sub = type(m.body[4].value.op) - _ast.Add = type(m.body[4].value.left.op) - _ast.Div = type(m.body[4].value.right.op) - _ast.Mult = type(m.body[4].value.right.left.op) - - _ast.RShift = type(m.body[5].value.op) - _ast.LShift = type(m.body[5].value.left.op) - _ast.Mod = type(m.body[5].value.left.left.op) - _ast.FloorDiv = type(m.body[5].value.left.left.left.op) - - _ast.BitOr = type(m.body[6].value.op) - _ast.BitXor = type(m.body[6].value.left.op) - _ast.BitAnd = type(m.body[6].value.left.left.op) - - _ast.Or = type(m.body[7].value.op) - _ast.And = type(m.body[7].value.values[0].op) - - _ast.Invert = type(m.body[8].value.right.op) - _ast.Not = type(m.body[8].value.left.right.op) - _ast.UAdd = type(m.body[8].value.left.right.operand.op) - _ast.USub = type(m.body[8].value.left.left.op) - - _ast.Or = type(m.body[9].value.op) - _ast.And = type(m.body[9].value.values[0].op) - - _ast.IsNot = type(m.body[10].value.ops[0]) - _ast.NotEq = type(m.body[10].value.ops[1]) - _ast.Is = type(m.body[10].value.left.ops[0]) - _ast.Eq = type(m.body[10].value.left.ops[1]) - - _ast.Gt = type(m.body[11].value.ops[0]) - _ast.Lt = type(m.body[11].value.ops[1]) - _ast.GtE = type(m.body[11].value.ops[2]) - _ast.LtE = type(m.body[11].value.ops[3]) - - _ast.In = type(m.body[12].value.ops[0]) - _ast.NotIn = type(m.body[12].value.ops[1]) - - - -def read_file(path, mode='rb'): - fp = open(path, mode) - try: - data = fp.read() - return data - finally: - fp.close() - -def read_python_file(path): - fp = open(path, "rb") - try: - encoding = parse_encoding(fp) - data = fp.read() - if encoding: - data = data.decode(encoding) - return data - finally: - fp.close() - |