From 7240d77c96792808a97c84032026c9cc7cd99127 Mon Sep 17 00:00:00 2001 From: Argyrios Kyrtzidis Date: Fri, 10 Jul 2009 03:41:36 +0000 Subject: [PATCH] Add documentation for the Index library to clang's web page. git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@75222 91177308-0d34-0410-b5e6-96231b3b80d8 --- docs/InternalsManual.html | 1 + docs/libIndex.html | 267 ++++++++++++++++++++++++++++++++++++++ www/features.html | 1 + 3 files changed, 269 insertions(+) create mode 100644 docs/libIndex.html diff --git a/docs/InternalsManual.html b/docs/InternalsManual.html index a4d5a057eb..2e825c6981 100644 --- a/docs/InternalsManual.html +++ b/docs/InternalsManual.html @@ -67,6 +67,7 @@ td {
  • Constant Folding in the Clang AST
  • +
  • The Index Library
  • diff --git a/docs/libIndex.html b/docs/libIndex.html new file mode 100644 index 0000000000..5693de80a8 --- /dev/null +++ b/docs/libIndex.html @@ -0,0 +1,267 @@ + + + The Index Library + + + + + + + + + +
    + +

    The Index Library

    + +

    Table of Contents

    + + +

    Design Philosophy

    + +

    The Index library is meant to provide the basic infrastructure for + cross-translation-unit analysis and is primarily focused on indexing + related functionality. It provides an API for clients that need to + accurately map the AST nodes of the ASTContext to the locations in the source files. +It also allows them to analyze information across multiple translation units.

    + +

    As a "general rule", ASTContexts are considered the primary source of +information that a client wants about a translation unit. There will be no such class as an + "indexing database" that stores, for example, source locations of identifiers separately from ASTContext. +All the information that a client needs from a translation unit will be extracted from the ASTContext.

    + +

    Classes

    + +

    Entity

    + +

    To be able to reason about semantically the same Decls that are contained in multiple ASTContexts, the 'Entity' class was introduced. +An Entity is an ASTContext-independent "token" that can be created from a Decl (and a typename in the future) with +the purpose to "resolve" it into a Decl belonging to another ASTContext. Some examples to make the concept of Entities more clear:

    + +

    +t1.c: +

    +void foo(void);
    +void bar(void);
    +
    +

    + +

    +t2.c: +

    +void foo(void) {
    +}
    +
    +

    + +

    +Translation unit t1.c contains 2 Entities foo and bar, while t2.c contains 1 Entity foo. +Entities are uniqued in such a way that the Entity* pointer for t1.c/foo is the same as the Entity* pointer for t2.c/foo. +An Entity doesn't convey any information about the declaration, it is more like an opaque pointer used only to get the +associated Decl out of an ASTContext so that the actual information for the declaration can be accessed. +Another important aspect of Entities is that they can only be created/associated for declarations that are visible outside the +translation unit. This means that for: +

    +

    +t3.c: +

    +static void foo(void);
    +
    +

    +

    +there can be no Entity (if you ask for the Entity* of the static function foo you'll get a null pointer). +This is for 2 reasons: +

    +

    + +

    ASTLocation

    + +Encapsulates a "point" in the AST tree of the ASTContext. +It represents either a Decl*, or a Stmt* along with its immediate Decl* parent. +An example for its usage is that libIndex will provide the references of foo in the form of ASTLocations, +"pointing" at the expressions that reference foo. + +

    DeclReferenceMap

    + +Accepts an ASTContext and creates a mapping from NamedDecls to the ASTLocations that reference them (in the same ASTContext). + +

    Functions

    + +

    ResolveLocationInAST

    + +A function that accepts an ASTContext and a SourceLocation which it resolves into an ASTLocation. + +

    AST Files

    + +The precompiled headers implementation of clang (PCH) is ideal for storing an ASTContext in a compact form that +will be loaded later for AST analysis. An "AST file" refers to a translation unit that was "compiled" into a precompiled header file. + +

    index-test tool

    + +

    Usage

    + +A command-line tool that exercises the libIndex API, useful for testing its features. +As input it accepts multiple AST files (representing multiple translation units) and a few options: + +

    +

    +   -point-at  [file:line:column]
    +
    +Resolves a [file:line:column] triplet into a ASTLocation from the first AST file. If no other option is specified, it prints the ASTLocation. +It also prints a declaration's associated doxygen comment, if one is available. +

    + +

    +

    +   -print-refs
    +
    +Prints the ASTLocations that reference the declaration that was resolved out of the [file:line:column] triplet +

    + +

    +

    +   -print-defs
    +
    +Prints the ASTLocations that define the resolved declaration +

    + +

    +

    +   -print-decls
    +
    +Prints the ASTLocations that declare the resolved declaration +

    + +

    Examples

    + +

    +Here's an example of using index-test: +

    + +

    +We have 3 files, +

    + +

    +foo.h: +

    +extern int global_var;
    +
    +void foo_func(int param1);
    +void bar_func(void);
    +
    + +t1.c: +
    +#include "foo.h"
    +
    +void foo_func(int param1) {
    +  int local_var = global_var;
    +  for (int for_var = 100; for_var < 500; ++for_var) {
    +    local_var = param1 + for_var;
    +  }
    +  bar_func();
    +}
    +
    + +t2.c: +
    +#include "foo.h"
    +
    +int global_var = 10;
    +
    +void bar_func(void) {
    +  global_var += 100;
    +  foo_func(global_var);
    +}
    +
    +

    + +

    +You first get AST files out of t1.c and t2.c: + +

    +$ clang-cc -emit-pch t1.c -o t1.ast
    +$ clang-cc -emit-pch t2.c -o t2.ast
    +
    +

    + +

    +Find the ASTLocation under this position of t1.c: +

    +[...]
    +void foo_func(int param1) {
    +  int local_var = global_var;
    +                      ^
    +[...]
    +
    + +
    +$ index-test t1.ast -point-at t1.c:4:23
    +> [Decl: Var local_var | Stmt: DeclRefExpr global_var] <t1.c:4:19, t1.c:4:19>
    +
    +

    + +

    +Find the declaration: + +

    +$ index-test t1.ast -point-at t1.c:4:23 -print-decls
    +> [Decl: Var global_var] <foo.h:1:12, foo.h:1:12>
    +
    +

    + +

    +Find the references: + +

    +$ index-test t1.ast t2.ast -point-at t1.c:4:23 -print-refs
    +> [Decl: Var local_var | Stmt: DeclRefExpr global_var] <t1.c:4:19, t1.c:4:19>
    +> [Decl: Function bar_func | Stmt: DeclRefExpr global_var] <t2.c:6:3, t2.c:6:3>
    +> [Decl: Function bar_func | Stmt: DeclRefExpr global_var] <t2.c:7:12, t2.c:7:12>
    +
    +

    + +

    +Find definitions: + +

    +$ index-test t1.ast t2.ast -point-at t1.c:4:23 -print-defs
    +> [Decl: Var global_var] <t2.c:3:5, t2.c:3:18>
    +
    +

    + +
    + + + diff --git a/www/features.html b/www/features.html index 21382fd5b1..a7c8fca7d1 100644 --- a/www/features.html +++ b/www/features.html @@ -232,6 +232,7 @@ Currently, clang is divided into the following libraries and tool:
  • librewrite - Editing of text buffers (important for code rewriting transformation, like refactoring).
  • libanalysis - Static analysis support.
  • +
  • libindex - Cross-translation-unit infrastructure and indexing support.
  • clang - A driver program, client of the libraries at various levels.
  • -- 2.40.0