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205 lines
9.4 KiB
Go
205 lines
9.4 KiB
Go
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// Copyright 2015 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package loader loads a complete Go program from source code, parsing
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// and type-checking the initial packages plus their transitive closure
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// of dependencies. The ASTs and the derived facts are retained for
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// later use.
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//
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// Deprecated: This is an older API and does not have support
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// for modules. Use golang.org/x/tools/go/packages instead.
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//
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// The package defines two primary types: Config, which specifies a
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// set of initial packages to load and various other options; and
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// Program, which is the result of successfully loading the packages
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// specified by a configuration.
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//
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// The configuration can be set directly, but *Config provides various
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// convenience methods to simplify the common cases, each of which can
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// be called any number of times. Finally, these are followed by a
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// call to Load() to actually load and type-check the program.
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//
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// var conf loader.Config
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//
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// // Use the command-line arguments to specify
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// // a set of initial packages to load from source.
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// // See FromArgsUsage for help.
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// rest, err := conf.FromArgs(os.Args[1:], wantTests)
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//
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// // Parse the specified files and create an ad hoc package with path "foo".
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// // All files must have the same 'package' declaration.
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// conf.CreateFromFilenames("foo", "foo.go", "bar.go")
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//
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// // Create an ad hoc package with path "foo" from
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// // the specified already-parsed files.
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// // All ASTs must have the same 'package' declaration.
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// conf.CreateFromFiles("foo", parsedFiles)
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//
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// // Add "runtime" to the set of packages to be loaded.
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// conf.Import("runtime")
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//
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// // Adds "fmt" and "fmt_test" to the set of packages
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// // to be loaded. "fmt" will include *_test.go files.
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// conf.ImportWithTests("fmt")
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//
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// // Finally, load all the packages specified by the configuration.
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// prog, err := conf.Load()
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//
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// See examples_test.go for examples of API usage.
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//
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//
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// CONCEPTS AND TERMINOLOGY
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//
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// The WORKSPACE is the set of packages accessible to the loader. The
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// workspace is defined by Config.Build, a *build.Context. The
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// default context treats subdirectories of $GOROOT and $GOPATH as
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// packages, but this behavior may be overridden.
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//
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// An AD HOC package is one specified as a set of source files on the
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// command line. In the simplest case, it may consist of a single file
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// such as $GOROOT/src/net/http/triv.go.
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//
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// EXTERNAL TEST packages are those comprised of a set of *_test.go
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// files all with the same 'package foo_test' declaration, all in the
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// same directory. (go/build.Package calls these files XTestFiles.)
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//
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// An IMPORTABLE package is one that can be referred to by some import
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// spec. Every importable package is uniquely identified by its
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// PACKAGE PATH or just PATH, a string such as "fmt", "encoding/json",
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// or "cmd/vendor/golang.org/x/arch/x86/x86asm". A package path
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// typically denotes a subdirectory of the workspace.
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//
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// An import declaration uses an IMPORT PATH to refer to a package.
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// Most import declarations use the package path as the import path.
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//
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// Due to VENDORING (https://golang.org/s/go15vendor), the
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// interpretation of an import path may depend on the directory in which
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// it appears. To resolve an import path to a package path, go/build
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// must search the enclosing directories for a subdirectory named
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// "vendor".
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//
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// ad hoc packages and external test packages are NON-IMPORTABLE. The
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// path of an ad hoc package is inferred from the package
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// declarations of its files and is therefore not a unique package key.
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// For example, Config.CreatePkgs may specify two initial ad hoc
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// packages, both with path "main".
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//
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// An AUGMENTED package is an importable package P plus all the
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// *_test.go files with same 'package foo' declaration as P.
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// (go/build.Package calls these files TestFiles.)
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//
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// The INITIAL packages are those specified in the configuration. A
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// DEPENDENCY is a package loaded to satisfy an import in an initial
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// package or another dependency.
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//
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package loader
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// IMPLEMENTATION NOTES
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//
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// 'go test', in-package test files, and import cycles
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// ---------------------------------------------------
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//
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// An external test package may depend upon members of the augmented
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// package that are not in the unaugmented package, such as functions
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// that expose internals. (See bufio/export_test.go for an example.)
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// So, the loader must ensure that for each external test package
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// it loads, it also augments the corresponding non-test package.
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//
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// The import graph over n unaugmented packages must be acyclic; the
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// import graph over n-1 unaugmented packages plus one augmented
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// package must also be acyclic. ('go test' relies on this.) But the
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// import graph over n augmented packages may contain cycles.
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//
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// First, all the (unaugmented) non-test packages and their
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// dependencies are imported in the usual way; the loader reports an
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// error if it detects an import cycle.
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//
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// Then, each package P for which testing is desired is augmented by
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// the list P' of its in-package test files, by calling
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// (*types.Checker).Files. This arrangement ensures that P' may
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// reference definitions within P, but P may not reference definitions
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// within P'. Furthermore, P' may import any other package, including
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// ones that depend upon P, without an import cycle error.
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//
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// Consider two packages A and B, both of which have lists of
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// in-package test files we'll call A' and B', and which have the
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// following import graph edges:
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// B imports A
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// B' imports A
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// A' imports B
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// This last edge would be expected to create an error were it not
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// for the special type-checking discipline above.
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// Cycles of size greater than two are possible. For example:
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// compress/bzip2/bzip2_test.go (package bzip2) imports "io/ioutil"
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// io/ioutil/tempfile_test.go (package ioutil) imports "regexp"
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// regexp/exec_test.go (package regexp) imports "compress/bzip2"
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//
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//
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// Concurrency
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// -----------
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//
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// Let us define the import dependency graph as follows. Each node is a
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// list of files passed to (Checker).Files at once. Many of these lists
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// are the production code of an importable Go package, so those nodes
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// are labelled by the package's path. The remaining nodes are
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// ad hoc packages and lists of in-package *_test.go files that augment
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// an importable package; those nodes have no label.
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//
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// The edges of the graph represent import statements appearing within a
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// file. An edge connects a node (a list of files) to the node it
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// imports, which is importable and thus always labelled.
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//
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// Loading is controlled by this dependency graph.
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//
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// To reduce I/O latency, we start loading a package's dependencies
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// asynchronously as soon as we've parsed its files and enumerated its
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// imports (scanImports). This performs a preorder traversal of the
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// import dependency graph.
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//
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// To exploit hardware parallelism, we type-check unrelated packages in
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// parallel, where "unrelated" means not ordered by the partial order of
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// the import dependency graph.
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//
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// We use a concurrency-safe non-blocking cache (importer.imported) to
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// record the results of type-checking, whether success or failure. An
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// entry is created in this cache by startLoad the first time the
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// package is imported. The first goroutine to request an entry becomes
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// responsible for completing the task and broadcasting completion to
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// subsequent requestors, which block until then.
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//
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// Type checking occurs in (parallel) postorder: we cannot type-check a
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// set of files until we have loaded and type-checked all of their
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// immediate dependencies (and thus all of their transitive
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// dependencies). If the input were guaranteed free of import cycles,
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// this would be trivial: we could simply wait for completion of the
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// dependencies and then invoke the typechecker.
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//
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// But as we saw in the 'go test' section above, some cycles in the
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// import graph over packages are actually legal, so long as the
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// cycle-forming edge originates in the in-package test files that
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// augment the package. This explains why the nodes of the import
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// dependency graph are not packages, but lists of files: the unlabelled
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// nodes avoid the cycles. Consider packages A and B where B imports A
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// and A's in-package tests AT import B. The naively constructed import
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// graph over packages would contain a cycle (A+AT) --> B --> (A+AT) but
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// the graph over lists of files is AT --> B --> A, where AT is an
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// unlabelled node.
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//
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// Awaiting completion of the dependencies in a cyclic graph would
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// deadlock, so we must materialize the import dependency graph (as
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// importer.graph) and check whether each import edge forms a cycle. If
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// x imports y, and the graph already contains a path from y to x, then
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// there is an import cycle, in which case the processing of x must not
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// wait for the completion of processing of y.
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//
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// When the type-checker makes a callback (doImport) to the loader for a
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// given import edge, there are two possible cases. In the normal case,
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// the dependency has already been completely type-checked; doImport
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// does a cache lookup and returns it. In the cyclic case, the entry in
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// the cache is still necessarily incomplete, indicating a cycle. We
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// perform the cycle check again to obtain the error message, and return
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// the error.
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//
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// The result of using concurrency is about a 2.5x speedup for stdlib_test.
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