dart-sdk/pkg/scrape
Devon Carew 2acf036023 move the third_party/pkg_tested packages into third_party/pkg
Change-Id: I7e2499aafb1ae85da4699358909ac67337593a11
Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/247927
Reviewed-by: Jonas Termansen <sortie@google.com>
Commit-Queue: Devon Carew <devoncarew@google.com>
2022-06-13 17:04:36 +00:00
..
example Script to scrape corpus to evaluate "super." parameter proposals. 2021-10-01 18:54:48 +00:00
lib move the third_party/pkg_tested packages into third_party/pkg 2022-06-13 17:04:36 +00:00
.gitignore
analysis_options.yaml Move pkg/scrape to package:lints. 2022-04-18 22:09:50 +00:00
OWNERS [infra] Add OWNERS to the Dart SDK 2022-02-14 14:06:34 +00:00
pubspec.yaml [pkg] prefer 'any' deps for package dev dependencies 2022-05-27 01:34:59 +00:00
README.md fix(docs): corrects common typos in project documentation 2021-05-18 15:48:18 +00:00

Scrape

The scrape package is sort of a micro-framework to make it easier to write little scripts that parse and traverse Dart code and gather statistics about the contents.

For example, say you want to find out how many if statements in a body of Dart code contain else clauses. A script using this package to measure that is:

import 'package:analyzer/dart/ast/ast.dart';
import 'package:scrape/scrape.dart';

void main(List<String> arguments) {
  Scrape()
    ..addHistogram("If")
    ..addVisitor(() => IfVisitor())
    ..runCommandLine(arguments);
}

class IfVisitor extends ScrapeVisitor {
  @override
  void visitIfStatement(IfStatement node) {
    if (node.elseStatement != null) {
      record("If", "else");
    } else {
      record("If", "no else");
    }
    super.visitIfStatement(node);
  }
}

Run that script on the package itself:

$ dart example/if.dart .

And it prints out:

-- If (137 total) --
    104 ( 75.912%): no else  =======================================
     33 ( 24.088%): else     =============
Took 262ms to scrape 1349 lines in 12 files.

So it looks like if statements without elses are about three times more common than ones with elses. We use data like this to inform how we design and evolve the language.

A scrape script

I wanted to make scrape flexible enough to let you write whatever kinds of logic to analyze code. That meant that instead of scrape being a tool you run, it is more like a library you consume. This way, inside your script, you have access to the full Dart language. At the same time, I didn't want every script to have to copy/paste the same boring argument parsing and other code.

The compromise between those is the Scrape class. It is a builder for an analysis over some code. It has a few methods you call on it to set up an analysis:

  • addHistogram() registers a new named histogram. This is the main way you count occurrences of datapoints you care about in the code you are analyzing. Each histogram is a named collection of datapoints. When the analysis completes, scrape prints out each histogram, buckets the datapoints, and shows how many of each datapoint occurred.

    In the example above, we have one histogram named "If" and we count two different datapoints, "no else", and "else".

  • addVisitor() registers a callback that creates a visitor. This is the main way you analyze code. When the analysis runs, scrape parses every Dart file you specify. For each file and each registered visitor callback, it invokes the callback to create a visitor and then runs that to walk over the parsed code.

    You call this passing in a callback that creates an instance of your own visitor class, which should extend ScrapeVisitor.

  • Then at the end call runCommandLine(), passing in your script's command line arguments. This reads the file paths the user wants to analyze and a few other command line options and flags that scrape automatically supports. To learn more, call that with --help.

A visitor class

The way your script analyzes code is through one or more custom subclasses of ScrapeVisitor. That base class itself extends the analyzer package's RecursiveAstVisitor class. It will walk over every single syntax tree node in the parsed Dart file and invoke visit methods specific to each one. You override the visit methods for the AST nodes you care about and put whatever logic you want in there to analyze the code.

An important limitation of scrape is that it only parses Dart files. It does not to any static analysis, name resolution, or type checking. This makes it lightweight and fast to run (for example you can run it on a pub package without needing to download its dependencies), but significantly limits the kinds of analysis you can do.

It's good for syntax and tolerable for things like API usage if you're willing to assume that certain names do refer to the API you think they do. If you look in the examples directory, you'll get a sense for what kinds of tasks scrape is well suited for.