src.org.python.indexer.ast.NImportFrom Maven / Gradle / Ivy
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/**
* Copyright 2009, Google Inc. All rights reserved.
* Licensed to PSF under a Contributor Agreement.
*/
package org.python.indexer.ast;
import org.python.indexer.Def;
import org.python.indexer.Indexer;
import org.python.indexer.NBinding;
import org.python.indexer.Scope;
import org.python.indexer.types.NModuleType;
import org.python.indexer.types.NType;
import org.python.indexer.types.NUnknownType;
import java.util.ArrayList;
import java.util.List;
import java.util.Map.Entry;
import java.util.Set;
/**
* Handles import from statements such as {@code from moduleA import a, b as c, d}
* and {@code from foo.bar.moduleB import *}.
*
* The indexer's implementation of import * uses different semantics from
* all the other forms of import. It's basically a bug, although the jury
* is still out as to which implementation is better.
*
* For the others we define name bindings anywhere an actual name is
* introduced into the scope containing the import statement, and references
* to the imported module or name everywhere else. This mimics the behavior
* of Python at runtime, but it may be confusing to anyone with only a casual
* understanding of Python's data model, who might think it works more like
* Java.
*
* For import * we just enter the imported names into the symbol table,
* which lets other code reference them, but the references "pass through"
* automatically to the module from which the names were imported.
*
* To illustate the difference, consider the following four modules:
*
* moduleA.py:
* a = 1
* b = 2
*
* moduleB.py:
* c = 3
* d = 4
*
* moduleC.py:
* from moduleA import a, b
* from moduleB import *
* print a # indexer finds definition of 'a' 2 lines up
* print b # indexer finds definition of 'b' 3 lines up
* print c # indexer finds definition of 'c' in moduleB
* print d # indexer finds definition of 'd' in moduleB
*
* moduleD.py:
* import moduleC
* print moduleC.a # indexer finds definition of 'a' in moduleC
* print moduleC.b # indexer finds definition of 'b' in moduleC
* print moduleC.c # indexer finds definition of 'c' in moduleB
* print moduleC.c # indexer finds definition of 'd' in moduleB
*
* To make import * work like the others, we need only create bindings
* for the imported names. But where would the bindings be located?
* Assuming that we were to co-locate them all at the "*" name node,
* clicking on a reference to any of the names would jump to the "*".
* It's not clear that this is a better user experience.
*
* We could make the other import statement forms work like {@code import *},
* but that path is even more fraught with confusing inconsistencies.
*/
public class NImportFrom extends NNode {
static final long serialVersionUID = 5070549408963950138L;
// from ...a.b.c import x, foo as bar, y
// from y.z import *
public String module; // "...a.b.c"
public NQname qname; // ".", ".", ".", "a", "b", "c"
public List aliases; // "x", "foo" [as] "bar", "y"
public NImportFrom(String module, NQname qname, List aliases) {
this(module, qname, aliases, 0, 1);
}
public NImportFrom(String module, NQname qname, List aliases,
int start, int end) {
super(start, end);
this.module = module;
this.qname = qname;
this.aliases = aliases;
addChildren(qname);
addChildren(aliases);
}
@Override
public boolean bindsName() {
return true;
}
@Override
protected void bindNames(Scope s) throws Exception {
// XXX: we can support this by resolving the qname now.
if (isImportStar()) {
return;
}
NImport.bindAliases(s, aliases);
}
@Override
public NType resolve(Scope s) throws Exception {
Scope scope = s.getScopeSymtab();
resolveExpr(qname, s);
NType bottomType = qname.getBottom().getType();
if (!bottomType.isModuleType()) {
return setType(new NUnknownType());
}
NModuleType mt = (NModuleType)bottomType;
setType(mt);
NImport.addReferences(s, qname, false /* don't put top name in scope */);
if (isImportStar()) {
importStar(s, mt);
return getType();
}
for (NAlias a : aliases) {
resolveAlias(scope, mt, a);
}
return getType();
}
public boolean isImportStar() {
return aliases.size() == 1 && "*".equals(aliases.get(0).name);
}
/**
* Resolve "foo [as bar]" in "from x[.y] import foo [as bar]".
* There are several possibilities for "foo": it could be a file
* in the directory "x[.y]", or it could be a name exported by
* the module "x[.y]" (from its __init__.py), or it could be a
* public name in the file "x/y.py".
*
* @param scope the scope into which names should be imported
* @param mt the non-{@code null} module "x[.y]". Could refer to
* either x/y.py or x/y/__init__.py.
* @param a the "foo [as bar]" component of the import statement
*/
private void resolveAlias(Scope scope, NModuleType mt, NAlias a) throws Exception {
// Possibilities 1 & 2: x/y.py or x/y/__init__.py
NBinding entry = mt.getTable().lookup(a.name);
if (entry == null) {
// Possibility 3: try looking for x/y/foo.py
String mqname = qname.toQname() + "." + a.qname.toQname();
NModuleType mt2 = Indexer.idx.loadModule(mqname);
if (mt2 != null) {
entry = Indexer.idx.lookupQname(mt2.getTable().getPath());
}
}
if (entry == null) {
addError(a, "name " + a.qname.getName().id
+ " not found in module " + this.module);
return;
}
String qname = a.qname.getName().id;
String aname = a.aname != null ? a.aname.id : null;
// Create references for both the name and the alias (if present).
// Then if "foo", add "foo" to scope. If "foo as bar", add "bar".
Indexer.idx.putLocation(a.qname.getName(), entry);
if (aname != null) {
Indexer.idx.putLocation(a.aname, entry);
scope.put(aname, entry);
} else {
scope.put(qname, entry);
}
}
private void importStar(Scope s, NModuleType mt) throws Exception {
if (mt == null || mt.getFile() == null) {
return;
}
NModule mod = Indexer.idx.getAstForFile(mt.getFile());
if (mod == null) {
return;
}
List names = mod.getExportedNames();
if (!names.isEmpty()) {
for (String name : names) {
NBinding nb = mt.getTable().lookupLocal(name);
if (nb != null) {
s.put(name, nb);
}
}
} else {
// Fall back to importing all names not starting with "_".
for (Entry e : mt.getTable().entrySet()) {
if (!e.getKey().startsWith("_")) {
s.put(e.getKey(), e.getValue());
}
}
}
}
@Override
public String toString() {
return "";
}
@Override
public void visit(NNodeVisitor v) {
if (v.visit(this)) {
visitNode(qname, v);
visitNodeList(aliases, v);
}
}
}