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author | Jeremy Hylton <jeremy@alum.mit.edu> | 2001-02-09 22:22:18 (GMT) |
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committer | Jeremy Hylton <jeremy@alum.mit.edu> | 2001-02-09 22:22:18 (GMT) |
commit | cb17ae8b19c35cc63e7daec871c025d903c49105 (patch) | |
tree | 763b5b42fc1a889f7445f77263aab2c5c3dd13a3 /Include/symtable.h | |
parent | 670fa52698e90b5025dc2434310eada42fcfdd4a (diff) | |
download | cpython-cb17ae8b19c35cc63e7daec871c025d903c49105.zip cpython-cb17ae8b19c35cc63e7daec871c025d903c49105.tar.gz cpython-cb17ae8b19c35cc63e7daec871c025d903c49105.tar.bz2 |
Relax the rules for using 'from ... import *' and exec in the presence
of nested functions. Either is allowed in a function if it contains
no defs or lambdas or the defs and lambdas it contains have no free
variables. If a function is itself nested and has free variables,
either is illegal.
Revise the symtable to use a PySymtableEntryObject, which holds all
the revelent information for a scope, rather than using a bunch of
st_cur_XXX pointers in the symtable struct. The changes simplify the
internal management of the current symtable scope and of the stack.
Added new C source file: Python/symtable.c. (Does the Windows build
process need to be updated?)
As part of these changes, the initial _symtable module interface
introduced in 2.1a2 is replaced. A dictionary of
PySymtableEntryObjects are returned.
Diffstat (limited to 'Include/symtable.h')
-rw-r--r-- | Include/symtable.h | 64 |
1 files changed, 27 insertions, 37 deletions
diff --git a/Include/symtable.h b/Include/symtable.h index beea9f5..f96ed0c 100644 --- a/Include/symtable.h +++ b/Include/symtable.h @@ -14,61 +14,51 @@ extern "C" { block; the integer values are used to store several flags, e.g. DEF_PARAM indicates that a variable is a parameter to a function. - - The slots st_cur_XXX pointers always refer to the current code - block. The st_cur slot is the symbol dictionary. The st_cur_id - slot is the id is the key in st_symbols. The st_cur_name slot is - the name of the current scope. The st_cur_type slot is one of - TYPE_FUNCTION, TYPE_CLASS, or TYPE_MODULE. The st_cur_children is - a list of the ids of the current node's children. - - The st_symbols slot is a dictionary that maps code block ids to - symbol dictionaries. The keys are generated by a counter that is - incremented each time a new code block is found. The counter is - identifies a specific scope, because both passes walk the parse - tree in the same order. - - The st_varnames slot is a dictionary that maps code block ids to - parameter lists. The st_global slot always refers to the symbol - dictionary for the module. - - The st_children slot is a dictionary that maps ids to a list - containing the ids of its children. - - If st_keep is true then the namespace info pushed on st_stack will - also be stored in st_scopes. This is useful if the symbol table is - being passed to something other than the compiler. */ +struct _symtable_entry; + struct symtable { int st_pass; /* pass == 1 or 2 */ - int st_keep; /* true if symtable will be returned */ char *st_filename; /* name of file being compiled */ - PyObject *st_symbols; /* dictionary of symbol tables */ - PyObject *st_varnames; /* dictionary of parameter lists */ + struct _symtable_entry *st_cur; /* current symbol table entry */ + PyObject *st_symbols; /* dictionary of symbol table entries */ PyObject *st_stack; /* stack of namespace info */ - PyObject *st_scopes; /* dictionary of namespace info */ - PyObject *st_children; /* dictionary (id=[ids]) */ - PyObject *st_cur; /* borrowed ref to dict in st_symbols */ - PyObject *st_cur_name; /* string, name of current scope */ - PyObject *st_cur_id; /* int id of current code block */ - PyObject *st_cur_children; /* ref to current children list */ - int st_cur_type; /* type of current scope */ - int st_cur_lineno; /* line number where current scope begins */ PyObject *st_global; /* borrowed ref to MODULE in st_symbols */ int st_nscopes; /* number of scopes */ int st_errors; /* number of errors */ char *st_private; /* name of current class or NULL */ int st_tmpname; /* temporary name counter */ - int st_nested; /* bool (true if nested scope) */ }; +typedef struct _symtable_entry { + PyObject_HEAD + PyObject *ste_id; /* int: key in st_symbols) */ + PyObject *ste_symbols; /* dict: name to flags) */ + PyObject *ste_name; /* string: name of scope */ + PyObject *ste_varnames; /* list of variable names */ + PyObject *ste_children; /* list of child ids */ + int ste_type; /* module, class, or function */ + int ste_lineno; /* first line of scope */ + int ste_optimized; /* true if namespace is optimized */ + int ste_nested; /* true if scope is nested */ + int ste_child_free; /* true if a child scope has free variables, + including free refs to globals */ + struct symtable *ste_table; +} PySymtableEntryObject; + +extern DL_IMPORT(PyTypeObject) PySymtableEntry_Type; + +#define PySymtableEntry_Check(op) ((op)->ob_type == &PySymtableEntry_Type) + +extern DL_IMPORT(PyObject *) PySymtableEntry_New(struct symtable *, + char *, int, int); + DL_IMPORT(struct symtable *) PyNode_CompileSymtable(struct _node *, char *); DL_IMPORT(void) PySymtable_Free(struct symtable *); #define TOP "global" -#define NOOPT ".noopt" /* Flags for def-use information */ |