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979 lines
29 KiB
979 lines
29 KiB
// Copyright 2017 The Bazel 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 resolve defines a name-resolution pass for Starlark abstract
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// syntax trees.
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//
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// The resolver sets the Locals and FreeVars arrays of each DefStmt and
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// the LocalIndex field of each syntax.Ident that refers to a local or
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// free variable. It also sets the Locals array of a File for locals
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// bound by top-level comprehensions and load statements.
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// Identifiers for global variables do not get an index.
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package resolve // import "go.starlark.net/resolve"
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// All references to names are statically resolved. Names may be
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// predeclared, global, or local to a function or file.
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// File-local variables include those bound by top-level comprehensions
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// and by load statements. ("Top-level" means "outside of any function".)
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// The resolver maps each global name to a small integer and each local
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// name to a small integer; these integers enable a fast and compact
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// representation of globals and locals in the evaluator.
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//
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// As an optimization, the resolver classifies each predeclared name as
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// either universal (e.g. None, len) or per-module (e.g. glob in Bazel's
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// build language), enabling the evaluator to share the representation
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// of the universal environment across all modules.
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//
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// The lexical environment is a tree of blocks with the file block at
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// its root. The file's child blocks may be of two kinds: functions
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// and comprehensions, and these may have further children of either
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// kind.
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//
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// Python-style resolution requires multiple passes because a name is
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// determined to be local to a function only if the function contains a
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// "binding" use of it; similarly, a name is determined to be global (as
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// opposed to predeclared) if the module contains a top-level binding use.
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// Unlike ordinary top-level assignments, the bindings created by load
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// statements are local to the file block.
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// A non-binding use may lexically precede the binding to which it is resolved.
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// In the first pass, we inspect each function, recording in
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// 'uses' each identifier and the environment block in which it occurs.
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// If a use of a name is binding, such as a function parameter or
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// assignment, we add the name to the block's bindings mapping and add a
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// local variable to the enclosing function.
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//
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// As we finish resolving each function, we inspect all the uses within
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// that function and discard ones that were found to be function-local. The
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// remaining ones must be either free (local to some lexically enclosing
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// function), or top-level (global, predeclared, or file-local), but we cannot tell
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// which until we have finished inspecting the outermost enclosing
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// function. At that point, we can distinguish local from top-level names
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// (and this is when Python would compute free variables).
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//
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// However, Starlark additionally requires that all references to global
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// names are satisfied by some declaration in the current module;
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// Starlark permits a function to forward-reference a global or file-local
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// that has not
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// been declared yet so long as it is declared before the end of the
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// module. So, instead of re-resolving the unresolved references after
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// each top-level function, we defer this until the end of the module
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// and ensure that all such references are satisfied by some definition.
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//
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// At the end of the module, we visit each of the nested function blocks
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// in bottom-up order, doing a recursive lexical lookup for each
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// unresolved name. If the name is found to be local to some enclosing
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// function, we must create a DefStmt.FreeVar (capture) parameter for
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// each intervening function. We enter these synthetic bindings into
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// the bindings map so that we create at most one freevar per name. If
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// the name was not local, we check that it was defined at module level.
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//
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// We resolve all uses of locals in the module (due to load statements
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// and comprehensions) in a similar way and compute the file's set of
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// local variables.
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//
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// Starlark enforces that all global names are assigned at most once on
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// all control flow paths by forbidding if/else statements and loops at
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// top level. A global may be used before it is defined, leading to a
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// dynamic error. However, the AllowGlobalReassign flag (really: allow
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// top-level reassign) makes the resolver allow multiple to a variable
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// at top-level. It also allows if-, for-, and while-loops at top-level,
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// which in turn may make the evaluator dynamically assign multiple
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// values to a variable at top-level. (These two roles should be separated.)
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import (
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"fmt"
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"log"
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"sort"
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"strings"
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"go.starlark.net/internal/spell"
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"go.starlark.net/syntax"
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)
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const debug = false
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const doesnt = "this Starlark dialect does not "
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// global options
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// These features are either not standard Starlark (yet), or deprecated
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// features of the BUILD language, so we put them behind flags.
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var (
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AllowNestedDef = false // allow def statements within function bodies
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AllowLambda = false // allow lambda expressions
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AllowFloat = false // allow floating point literals, the 'float' built-in, and x / y
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AllowSet = false // allow the 'set' built-in
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AllowGlobalReassign = false // allow reassignment to top-level names; also, allow if/for/while at top-level
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AllowRecursion = false // allow while statements and recursive functions
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AllowBitwise = true // obsolete; bitwise operations (&, |, ^, ~, <<, and >>) are always enabled
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LoadBindsGlobally = false // load creates global not file-local bindings (deprecated)
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)
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// File resolves the specified file and records information about the
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// module in file.Module.
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//
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// The isPredeclared and isUniversal predicates report whether a name is
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// a pre-declared identifier (visible in the current module) or a
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// universal identifier (visible in every module).
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// Clients should typically pass predeclared.Has for the first and
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// starlark.Universe.Has for the second, where predeclared is the
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// module's StringDict of predeclared names and starlark.Universe is the
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// standard set of built-ins.
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// The isUniverse predicate is supplied a parameter to avoid a cyclic
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// dependency upon starlark.Universe, not because users should ever need
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// to redefine it.
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func File(file *syntax.File, isPredeclared, isUniversal func(name string) bool) error {
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return REPLChunk(file, nil, isPredeclared, isUniversal)
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}
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// REPLChunk is a generalization of the File function that supports a
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// non-empty initial global block, as occurs in a REPL.
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func REPLChunk(file *syntax.File, isGlobal, isPredeclared, isUniversal func(name string) bool) error {
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r := newResolver(isGlobal, isPredeclared, isUniversal)
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r.stmts(file.Stmts)
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r.env.resolveLocalUses()
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// At the end of the module, resolve all non-local variable references,
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// computing closures.
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// Function bodies may contain forward references to later global declarations.
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r.resolveNonLocalUses(r.env)
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file.Module = &Module{
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Locals: r.moduleLocals,
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Globals: r.moduleGlobals,
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}
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if len(r.errors) > 0 {
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return r.errors
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}
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return nil
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}
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// Expr resolves the specified expression.
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// It returns the local variables bound within the expression.
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//
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// The isPredeclared and isUniversal predicates behave as for the File function.
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func Expr(expr syntax.Expr, isPredeclared, isUniversal func(name string) bool) ([]*Binding, error) {
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r := newResolver(nil, isPredeclared, isUniversal)
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r.expr(expr)
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r.env.resolveLocalUses()
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r.resolveNonLocalUses(r.env) // globals & universals
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if len(r.errors) > 0 {
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return nil, r.errors
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}
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return r.moduleLocals, nil
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}
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// An ErrorList is a non-empty list of resolver error messages.
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type ErrorList []Error // len > 0
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func (e ErrorList) Error() string { return e[0].Error() }
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// An Error describes the nature and position of a resolver error.
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type Error struct {
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Pos syntax.Position
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Msg string
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}
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func (e Error) Error() string { return e.Pos.String() + ": " + e.Msg }
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func newResolver(isGlobal, isPredeclared, isUniversal func(name string) bool) *resolver {
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file := new(block)
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return &resolver{
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file: file,
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env: file,
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isGlobal: isGlobal,
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isPredeclared: isPredeclared,
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isUniversal: isUniversal,
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globals: make(map[string]*Binding),
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predeclared: make(map[string]*Binding),
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}
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}
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type resolver struct {
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// env is the current local environment:
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// a linked list of blocks, innermost first.
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// The tail of the list is the file block.
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env *block
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file *block // file block (contains load bindings)
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// moduleLocals contains the local variables of the module
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// (due to load statements and comprehensions outside any function).
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// moduleGlobals contains the global variables of the module.
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moduleLocals []*Binding
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moduleGlobals []*Binding
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// globals maps each global name in the module to its binding.
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// predeclared does the same for predeclared and universal names.
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globals map[string]*Binding
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predeclared map[string]*Binding
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// These predicates report whether a name is
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// pre-declared, either in this module or universally,
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// or already declared in the module globals (as in a REPL).
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// isGlobal may be nil.
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isGlobal, isPredeclared, isUniversal func(name string) bool
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loops int // number of enclosing for loops
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errors ErrorList
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}
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// container returns the innermost enclosing "container" block:
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// a function (function != nil) or file (function == nil).
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// Container blocks accumulate local variable bindings.
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func (r *resolver) container() *block {
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for b := r.env; ; b = b.parent {
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if b.function != nil || b == r.file {
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return b
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}
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}
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}
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func (r *resolver) push(b *block) {
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r.env.children = append(r.env.children, b)
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b.parent = r.env
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r.env = b
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}
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func (r *resolver) pop() { r.env = r.env.parent }
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type block struct {
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parent *block // nil for file block
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// In the file (root) block, both these fields are nil.
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function *Function // only for function blocks
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comp *syntax.Comprehension // only for comprehension blocks
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// bindings maps a name to its binding.
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// A local binding has an index into its innermost enclosing container's locals array.
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// A free binding has an index into its innermost enclosing function's freevars array.
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bindings map[string]*Binding
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// children records the child blocks of the current one.
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children []*block
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// uses records all identifiers seen in this container (function or file),
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// and a reference to the environment in which they appear.
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// As we leave each container block, we resolve them,
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// so that only free and global ones remain.
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// At the end of each top-level function we compute closures.
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uses []use
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}
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func (b *block) bind(name string, bind *Binding) {
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if b.bindings == nil {
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b.bindings = make(map[string]*Binding)
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}
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b.bindings[name] = bind
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}
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func (b *block) String() string {
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if b.function != nil {
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return "function block at " + fmt.Sprint(b.function.Pos)
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}
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if b.comp != nil {
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return "comprehension block at " + fmt.Sprint(b.comp.Span())
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}
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return "file block"
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}
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func (r *resolver) errorf(posn syntax.Position, format string, args ...interface{}) {
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r.errors = append(r.errors, Error{posn, fmt.Sprintf(format, args...)})
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}
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// A use records an identifier and the environment in which it appears.
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type use struct {
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id *syntax.Ident
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env *block
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}
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// bind creates a binding for id: a global (not file-local)
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// binding at top-level, a local binding otherwise.
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// At top-level, it reports an error if a global or file-local
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// binding already exists, unless AllowGlobalReassign.
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// It sets id.Binding to the binding (whether old or new),
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// and returns whether a binding already existed.
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func (r *resolver) bind(id *syntax.Ident) bool {
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// Binding outside any local (comprehension/function) block?
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if r.env == r.file {
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bind, ok := r.file.bindings[id.Name]
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if !ok {
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bind, ok = r.globals[id.Name]
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if !ok {
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// first global binding of this name
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bind = &Binding{
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First: id,
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Scope: Global,
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Index: len(r.moduleGlobals),
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}
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r.globals[id.Name] = bind
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r.moduleGlobals = append(r.moduleGlobals, bind)
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}
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}
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if ok && !AllowGlobalReassign {
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r.errorf(id.NamePos, "cannot reassign %s %s declared at %s",
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bind.Scope, id.Name, bind.First.NamePos)
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}
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id.Binding = bind
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return ok
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}
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return r.bindLocal(id)
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}
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func (r *resolver) bindLocal(id *syntax.Ident) bool {
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// Mark this name as local to current block.
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// Assign it a new local (positive) index in the current container.
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_, ok := r.env.bindings[id.Name]
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if !ok {
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var locals *[]*Binding
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if fn := r.container().function; fn != nil {
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locals = &fn.Locals
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} else {
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locals = &r.moduleLocals
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}
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bind := &Binding{
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First: id,
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Scope: Local,
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Index: len(*locals),
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}
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r.env.bind(id.Name, bind)
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*locals = append(*locals, bind)
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}
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r.use(id)
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return ok
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}
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func (r *resolver) use(id *syntax.Ident) {
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use := use{id, r.env}
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// The spec says that if there is a global binding of a name
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// then all references to that name in that block refer to the
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// global, even if the use precedes the def---just as for locals.
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// For example, in this code,
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//
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// print(len); len=1; print(len)
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//
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// both occurrences of len refer to the len=1 binding, which
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// completely shadows the predeclared len function.
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//
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// The rationale for these semantics, which differ from Python,
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// is that the static meaning of len (a reference to a global)
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// does not change depending on where it appears in the file.
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// Of course, its dynamic meaning does change, from an error
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// into a valid reference, so it's not clear these semantics
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// have any practical advantage.
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//
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// In any case, the Bazel implementation lags behind the spec
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// and follows Python behavior, so the first use of len refers
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// to the predeclared function. This typically used in a BUILD
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// file that redefines a predeclared name half way through,
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// for example:
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//
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// proto_library(...) # built-in rule
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// load("myproto.bzl", "proto_library")
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// proto_library(...) # user-defined rule
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//
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// We will piggyback support for the legacy semantics on the
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// AllowGlobalReassign flag, which is loosely related and also
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// required for Bazel.
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if AllowGlobalReassign && r.env == r.file {
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r.useToplevel(use)
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return
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}
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b := r.container()
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b.uses = append(b.uses, use)
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}
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// useToplevel resolves use.id as a reference to a name visible at top-level.
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// The use.env field captures the original environment for error reporting.
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func (r *resolver) useToplevel(use use) (bind *Binding) {
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id := use.id
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if prev, ok := r.file.bindings[id.Name]; ok {
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// use of load-defined name in file block
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bind = prev
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} else if prev, ok := r.globals[id.Name]; ok {
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// use of global declared by module
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bind = prev
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} else if r.isGlobal != nil && r.isGlobal(id.Name) {
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// use of global defined in a previous REPL chunk
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bind = &Binding{
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First: id, // wrong: this is not even a binding use
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Scope: Global,
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Index: len(r.moduleGlobals),
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}
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r.globals[id.Name] = bind
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r.moduleGlobals = append(r.moduleGlobals, bind)
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} else if prev, ok := r.predeclared[id.Name]; ok {
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// repeated use of predeclared or universal
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bind = prev
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} else if r.isPredeclared(id.Name) {
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// use of pre-declared name
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bind = &Binding{Scope: Predeclared}
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r.predeclared[id.Name] = bind // save it
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} else if r.isUniversal(id.Name) {
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// use of universal name
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if !AllowFloat && id.Name == "float" {
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r.errorf(id.NamePos, doesnt+"support floating point")
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}
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if !AllowSet && id.Name == "set" {
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r.errorf(id.NamePos, doesnt+"support sets")
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}
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bind = &Binding{Scope: Universal}
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r.predeclared[id.Name] = bind // save it
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} else {
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bind = &Binding{Scope: Undefined}
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var hint string
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if n := r.spellcheck(use); n != "" {
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hint = fmt.Sprintf(" (did you mean %s?)", n)
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}
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r.errorf(id.NamePos, "undefined: %s%s", id.Name, hint)
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}
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id.Binding = bind
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return bind
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}
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// spellcheck returns the most likely misspelling of
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// the name use.id in the environment use.env.
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func (r *resolver) spellcheck(use use) string {
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var names []string
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// locals
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for b := use.env; b != nil; b = b.parent {
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for name := range b.bindings {
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names = append(names, name)
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}
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}
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// globals
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//
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// We have no way to enumerate the sets whose membership
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// tests are isPredeclared, isUniverse, and isGlobal,
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// which includes prior names in the REPL session.
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for _, bind := range r.moduleGlobals {
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names = append(names, bind.First.Name)
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}
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sort.Strings(names)
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return spell.Nearest(use.id.Name, names)
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}
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// resolveLocalUses is called when leaving a container (function/module)
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// block. It resolves all uses of locals/cells within that block.
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func (b *block) resolveLocalUses() {
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unresolved := b.uses[:0]
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for _, use := range b.uses {
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if bind := lookupLocal(use); bind != nil && (bind.Scope == Local || bind.Scope == Cell) {
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use.id.Binding = bind
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} else {
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unresolved = append(unresolved, use)
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}
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}
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b.uses = unresolved
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}
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func (r *resolver) stmts(stmts []syntax.Stmt) {
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for _, stmt := range stmts {
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r.stmt(stmt)
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}
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}
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|
|
func (r *resolver) stmt(stmt syntax.Stmt) {
|
|
switch stmt := stmt.(type) {
|
|
case *syntax.ExprStmt:
|
|
r.expr(stmt.X)
|
|
|
|
case *syntax.BranchStmt:
|
|
if r.loops == 0 && (stmt.Token == syntax.BREAK || stmt.Token == syntax.CONTINUE) {
|
|
r.errorf(stmt.TokenPos, "%s not in a loop", stmt.Token)
|
|
}
|
|
|
|
case *syntax.IfStmt:
|
|
if !AllowGlobalReassign && r.container().function == nil {
|
|
r.errorf(stmt.If, "if statement not within a function")
|
|
}
|
|
r.expr(stmt.Cond)
|
|
r.stmts(stmt.True)
|
|
r.stmts(stmt.False)
|
|
|
|
case *syntax.AssignStmt:
|
|
r.expr(stmt.RHS)
|
|
isAugmented := stmt.Op != syntax.EQ
|
|
r.assign(stmt.LHS, isAugmented)
|
|
|
|
case *syntax.DefStmt:
|
|
if !AllowNestedDef && r.container().function != nil {
|
|
r.errorf(stmt.Def, doesnt+"support nested def")
|
|
}
|
|
r.bind(stmt.Name)
|
|
fn := &Function{
|
|
Name: stmt.Name.Name,
|
|
Pos: stmt.Def,
|
|
Params: stmt.Params,
|
|
Body: stmt.Body,
|
|
}
|
|
stmt.Function = fn
|
|
r.function(fn, stmt.Def)
|
|
|
|
case *syntax.ForStmt:
|
|
if !AllowGlobalReassign && r.container().function == nil {
|
|
r.errorf(stmt.For, "for loop not within a function")
|
|
}
|
|
r.expr(stmt.X)
|
|
const isAugmented = false
|
|
r.assign(stmt.Vars, isAugmented)
|
|
r.loops++
|
|
r.stmts(stmt.Body)
|
|
r.loops--
|
|
|
|
case *syntax.WhileStmt:
|
|
if !AllowRecursion {
|
|
r.errorf(stmt.While, doesnt+"support while loops")
|
|
}
|
|
if !AllowGlobalReassign && r.container().function == nil {
|
|
r.errorf(stmt.While, "while loop not within a function")
|
|
}
|
|
r.expr(stmt.Cond)
|
|
r.loops++
|
|
r.stmts(stmt.Body)
|
|
r.loops--
|
|
|
|
case *syntax.ReturnStmt:
|
|
if r.container().function == nil {
|
|
r.errorf(stmt.Return, "return statement not within a function")
|
|
}
|
|
if stmt.Result != nil {
|
|
r.expr(stmt.Result)
|
|
}
|
|
|
|
case *syntax.LoadStmt:
|
|
if r.container().function != nil {
|
|
r.errorf(stmt.Load, "load statement within a function")
|
|
}
|
|
|
|
for i, from := range stmt.From {
|
|
if from.Name == "" {
|
|
r.errorf(from.NamePos, "load: empty identifier")
|
|
continue
|
|
}
|
|
if from.Name[0] == '_' {
|
|
r.errorf(from.NamePos, "load: names with leading underscores are not exported: %s", from.Name)
|
|
}
|
|
|
|
id := stmt.To[i]
|
|
if LoadBindsGlobally {
|
|
r.bind(id)
|
|
} else if r.bindLocal(id) && !AllowGlobalReassign {
|
|
// "Global" in AllowGlobalReassign is a misnomer for "toplevel".
|
|
// Sadly we can't report the previous declaration
|
|
// as id.Binding may not be set yet.
|
|
r.errorf(id.NamePos, "cannot reassign top-level %s", id.Name)
|
|
}
|
|
}
|
|
|
|
default:
|
|
log.Panicf("unexpected stmt %T", stmt)
|
|
}
|
|
}
|
|
|
|
func (r *resolver) assign(lhs syntax.Expr, isAugmented bool) {
|
|
switch lhs := lhs.(type) {
|
|
case *syntax.Ident:
|
|
// x = ...
|
|
r.bind(lhs)
|
|
|
|
case *syntax.IndexExpr:
|
|
// x[i] = ...
|
|
r.expr(lhs.X)
|
|
r.expr(lhs.Y)
|
|
|
|
case *syntax.DotExpr:
|
|
// x.f = ...
|
|
r.expr(lhs.X)
|
|
|
|
case *syntax.TupleExpr:
|
|
// (x, y) = ...
|
|
if len(lhs.List) == 0 {
|
|
r.errorf(syntax.Start(lhs), "can't assign to ()")
|
|
}
|
|
if isAugmented {
|
|
r.errorf(syntax.Start(lhs), "can't use tuple expression in augmented assignment")
|
|
}
|
|
for _, elem := range lhs.List {
|
|
r.assign(elem, isAugmented)
|
|
}
|
|
|
|
case *syntax.ListExpr:
|
|
// [x, y, z] = ...
|
|
if len(lhs.List) == 0 {
|
|
r.errorf(syntax.Start(lhs), "can't assign to []")
|
|
}
|
|
if isAugmented {
|
|
r.errorf(syntax.Start(lhs), "can't use list expression in augmented assignment")
|
|
}
|
|
for _, elem := range lhs.List {
|
|
r.assign(elem, isAugmented)
|
|
}
|
|
|
|
case *syntax.ParenExpr:
|
|
r.assign(lhs.X, isAugmented)
|
|
|
|
default:
|
|
name := strings.ToLower(strings.TrimPrefix(fmt.Sprintf("%T", lhs), "*syntax."))
|
|
r.errorf(syntax.Start(lhs), "can't assign to %s", name)
|
|
}
|
|
}
|
|
|
|
func (r *resolver) expr(e syntax.Expr) {
|
|
switch e := e.(type) {
|
|
case *syntax.Ident:
|
|
r.use(e)
|
|
|
|
case *syntax.Literal:
|
|
if !AllowFloat && e.Token == syntax.FLOAT {
|
|
r.errorf(e.TokenPos, doesnt+"support floating point")
|
|
}
|
|
|
|
case *syntax.ListExpr:
|
|
for _, x := range e.List {
|
|
r.expr(x)
|
|
}
|
|
|
|
case *syntax.CondExpr:
|
|
r.expr(e.Cond)
|
|
r.expr(e.True)
|
|
r.expr(e.False)
|
|
|
|
case *syntax.IndexExpr:
|
|
r.expr(e.X)
|
|
r.expr(e.Y)
|
|
|
|
case *syntax.DictEntry:
|
|
r.expr(e.Key)
|
|
r.expr(e.Value)
|
|
|
|
case *syntax.SliceExpr:
|
|
r.expr(e.X)
|
|
if e.Lo != nil {
|
|
r.expr(e.Lo)
|
|
}
|
|
if e.Hi != nil {
|
|
r.expr(e.Hi)
|
|
}
|
|
if e.Step != nil {
|
|
r.expr(e.Step)
|
|
}
|
|
|
|
case *syntax.Comprehension:
|
|
// The 'in' operand of the first clause (always a ForClause)
|
|
// is resolved in the outer block; consider: [x for x in x].
|
|
clause := e.Clauses[0].(*syntax.ForClause)
|
|
r.expr(clause.X)
|
|
|
|
// A list/dict comprehension defines a new lexical block.
|
|
// Locals defined within the block will be allotted
|
|
// distinct slots in the locals array of the innermost
|
|
// enclosing container (function/module) block.
|
|
r.push(&block{comp: e})
|
|
|
|
const isAugmented = false
|
|
r.assign(clause.Vars, isAugmented)
|
|
|
|
for _, clause := range e.Clauses[1:] {
|
|
switch clause := clause.(type) {
|
|
case *syntax.IfClause:
|
|
r.expr(clause.Cond)
|
|
case *syntax.ForClause:
|
|
r.assign(clause.Vars, isAugmented)
|
|
r.expr(clause.X)
|
|
}
|
|
}
|
|
r.expr(e.Body) // body may be *DictEntry
|
|
r.pop()
|
|
|
|
case *syntax.TupleExpr:
|
|
for _, x := range e.List {
|
|
r.expr(x)
|
|
}
|
|
|
|
case *syntax.DictExpr:
|
|
for _, entry := range e.List {
|
|
entry := entry.(*syntax.DictEntry)
|
|
r.expr(entry.Key)
|
|
r.expr(entry.Value)
|
|
}
|
|
|
|
case *syntax.UnaryExpr:
|
|
r.expr(e.X)
|
|
|
|
case *syntax.BinaryExpr:
|
|
if !AllowFloat && e.Op == syntax.SLASH {
|
|
r.errorf(e.OpPos, doesnt+"support floating point (use //)")
|
|
}
|
|
r.expr(e.X)
|
|
r.expr(e.Y)
|
|
|
|
case *syntax.DotExpr:
|
|
r.expr(e.X)
|
|
// ignore e.Name
|
|
|
|
case *syntax.CallExpr:
|
|
r.expr(e.Fn)
|
|
var seenVarargs, seenKwargs bool
|
|
var seenName map[string]bool
|
|
var n, p int
|
|
for _, arg := range e.Args {
|
|
pos, _ := arg.Span()
|
|
if unop, ok := arg.(*syntax.UnaryExpr); ok && unop.Op == syntax.STARSTAR {
|
|
// **kwargs
|
|
if seenKwargs {
|
|
r.errorf(pos, "multiple **kwargs not allowed")
|
|
}
|
|
seenKwargs = true
|
|
r.expr(arg)
|
|
} else if ok && unop.Op == syntax.STAR {
|
|
// *args
|
|
if seenKwargs {
|
|
r.errorf(pos, "*args may not follow **kwargs")
|
|
} else if seenVarargs {
|
|
r.errorf(pos, "multiple *args not allowed")
|
|
}
|
|
seenVarargs = true
|
|
r.expr(arg)
|
|
} else if binop, ok := arg.(*syntax.BinaryExpr); ok && binop.Op == syntax.EQ {
|
|
// k=v
|
|
n++
|
|
if seenKwargs {
|
|
r.errorf(pos, "argument may not follow **kwargs")
|
|
}
|
|
x := binop.X.(*syntax.Ident)
|
|
if seenName[x.Name] {
|
|
r.errorf(x.NamePos, "keyword argument %s repeated", x.Name)
|
|
} else {
|
|
if seenName == nil {
|
|
seenName = make(map[string]bool)
|
|
}
|
|
seenName[x.Name] = true
|
|
}
|
|
r.expr(binop.Y)
|
|
} else {
|
|
// positional argument
|
|
p++
|
|
if seenVarargs {
|
|
r.errorf(pos, "argument may not follow *args")
|
|
} else if seenKwargs {
|
|
r.errorf(pos, "argument may not follow **kwargs")
|
|
} else if len(seenName) > 0 {
|
|
r.errorf(pos, "positional argument may not follow named")
|
|
}
|
|
r.expr(arg)
|
|
}
|
|
}
|
|
|
|
// Fail gracefully if compiler-imposed limit is exceeded.
|
|
if p >= 256 {
|
|
pos, _ := e.Span()
|
|
r.errorf(pos, "%v positional arguments in call, limit is 255", p)
|
|
}
|
|
if n >= 256 {
|
|
pos, _ := e.Span()
|
|
r.errorf(pos, "%v keyword arguments in call, limit is 255", n)
|
|
}
|
|
|
|
case *syntax.LambdaExpr:
|
|
if !AllowLambda {
|
|
r.errorf(e.Lambda, doesnt+"support lambda")
|
|
}
|
|
fn := &Function{
|
|
Name: "lambda",
|
|
Pos: e.Lambda,
|
|
Params: e.Params,
|
|
Body: []syntax.Stmt{&syntax.ReturnStmt{Result: e.Body}},
|
|
}
|
|
e.Function = fn
|
|
r.function(fn, e.Lambda)
|
|
|
|
case *syntax.ParenExpr:
|
|
r.expr(e.X)
|
|
|
|
default:
|
|
log.Panicf("unexpected expr %T", e)
|
|
}
|
|
}
|
|
|
|
func (r *resolver) function(function *Function, pos syntax.Position) {
|
|
// Resolve defaults in enclosing environment.
|
|
for _, param := range function.Params {
|
|
if binary, ok := param.(*syntax.BinaryExpr); ok {
|
|
r.expr(binary.Y)
|
|
}
|
|
}
|
|
|
|
// Enter function block.
|
|
b := &block{function: function}
|
|
r.push(b)
|
|
|
|
var seenOptional bool
|
|
var star *syntax.UnaryExpr // * or *args param
|
|
var starStar *syntax.Ident // **kwargs ident
|
|
var numKwonlyParams int
|
|
for _, param := range function.Params {
|
|
switch param := param.(type) {
|
|
case *syntax.Ident:
|
|
// e.g. x
|
|
if starStar != nil {
|
|
r.errorf(param.NamePos, "required parameter may not follow **%s", starStar.Name)
|
|
} else if star != nil {
|
|
numKwonlyParams++
|
|
} else if seenOptional {
|
|
r.errorf(param.NamePos, "required parameter may not follow optional")
|
|
}
|
|
if r.bind(param) {
|
|
r.errorf(param.NamePos, "duplicate parameter: %s", param.Name)
|
|
}
|
|
|
|
case *syntax.BinaryExpr:
|
|
// e.g. y=dflt
|
|
if starStar != nil {
|
|
r.errorf(param.OpPos, "optional parameter may not follow **%s", starStar.Name)
|
|
} else if star != nil {
|
|
numKwonlyParams++
|
|
}
|
|
if id := param.X.(*syntax.Ident); r.bind(id) {
|
|
r.errorf(param.OpPos, "duplicate parameter: %s", id.Name)
|
|
}
|
|
seenOptional = true
|
|
|
|
case *syntax.UnaryExpr:
|
|
// * or *args or **kwargs
|
|
if param.Op == syntax.STAR {
|
|
if starStar != nil {
|
|
r.errorf(param.OpPos, "* parameter may not follow **%s", starStar.Name)
|
|
} else if star != nil {
|
|
r.errorf(param.OpPos, "multiple * parameters not allowed")
|
|
} else {
|
|
star = param
|
|
}
|
|
} else {
|
|
if starStar != nil {
|
|
r.errorf(param.OpPos, "multiple ** parameters not allowed")
|
|
}
|
|
starStar = param.X.(*syntax.Ident)
|
|
}
|
|
}
|
|
}
|
|
|
|
// Bind the *args and **kwargs parameters at the end,
|
|
// so that regular parameters a/b/c are contiguous and
|
|
// there is no hole for the "*":
|
|
// def f(a, b, *args, c=0, **kwargs)
|
|
// def f(a, b, *, c=0, **kwargs)
|
|
if star != nil {
|
|
if id, _ := star.X.(*syntax.Ident); id != nil {
|
|
// *args
|
|
if r.bind(id) {
|
|
r.errorf(id.NamePos, "duplicate parameter: %s", id.Name)
|
|
}
|
|
function.HasVarargs = true
|
|
} else if numKwonlyParams == 0 {
|
|
r.errorf(star.OpPos, "bare * must be followed by keyword-only parameters")
|
|
}
|
|
}
|
|
if starStar != nil {
|
|
if r.bind(starStar) {
|
|
r.errorf(starStar.NamePos, "duplicate parameter: %s", starStar.Name)
|
|
}
|
|
function.HasKwargs = true
|
|
}
|
|
|
|
function.NumKwonlyParams = numKwonlyParams
|
|
r.stmts(function.Body)
|
|
|
|
// Resolve all uses of this function's local vars,
|
|
// and keep just the remaining uses of free/global vars.
|
|
b.resolveLocalUses()
|
|
|
|
// Leave function block.
|
|
r.pop()
|
|
|
|
// References within the function body to globals are not
|
|
// resolved until the end of the module.
|
|
}
|
|
|
|
func (r *resolver) resolveNonLocalUses(b *block) {
|
|
// First resolve inner blocks.
|
|
for _, child := range b.children {
|
|
r.resolveNonLocalUses(child)
|
|
}
|
|
for _, use := range b.uses {
|
|
use.id.Binding = r.lookupLexical(use, use.env)
|
|
}
|
|
}
|
|
|
|
// lookupLocal looks up an identifier within its immediately enclosing function.
|
|
func lookupLocal(use use) *Binding {
|
|
for env := use.env; env != nil; env = env.parent {
|
|
if bind, ok := env.bindings[use.id.Name]; ok {
|
|
if bind.Scope == Free {
|
|
// shouldn't exist till later
|
|
log.Panicf("%s: internal error: %s, %v", use.id.NamePos, use.id.Name, bind)
|
|
}
|
|
return bind // found
|
|
}
|
|
if env.function != nil {
|
|
break
|
|
}
|
|
}
|
|
return nil // not found in this function
|
|
}
|
|
|
|
// lookupLexical looks up an identifier use.id within its lexically enclosing environment.
|
|
// The use.env field captures the original environment for error reporting.
|
|
func (r *resolver) lookupLexical(use use, env *block) (bind *Binding) {
|
|
if debug {
|
|
fmt.Printf("lookupLexical %s in %s = ...\n", use.id.Name, env)
|
|
defer func() { fmt.Printf("= %v\n", bind) }()
|
|
}
|
|
|
|
// Is this the file block?
|
|
if env == r.file {
|
|
return r.useToplevel(use) // file-local, global, predeclared, or not found
|
|
}
|
|
|
|
// Defined in this block?
|
|
bind, ok := env.bindings[use.id.Name]
|
|
if !ok {
|
|
// Defined in parent block?
|
|
bind = r.lookupLexical(use, env.parent)
|
|
if env.function != nil && (bind.Scope == Local || bind.Scope == Free || bind.Scope == Cell) {
|
|
// Found in parent block, which belongs to enclosing function.
|
|
// Add the parent's binding to the function's freevars,
|
|
// and add a new 'free' binding to the inner function's block,
|
|
// and turn the parent's local into cell.
|
|
if bind.Scope == Local {
|
|
bind.Scope = Cell
|
|
}
|
|
index := len(env.function.FreeVars)
|
|
env.function.FreeVars = append(env.function.FreeVars, bind)
|
|
bind = &Binding{
|
|
First: bind.First,
|
|
Scope: Free,
|
|
Index: index,
|
|
}
|
|
if debug {
|
|
fmt.Printf("creating freevar %v in function at %s: %s\n",
|
|
len(env.function.FreeVars), env.function.Pos, use.id.Name)
|
|
}
|
|
}
|
|
|
|
// Memoize, to avoid duplicate free vars
|
|
// and redundant global (failing) lookups.
|
|
env.bind(use.id.Name, bind)
|
|
}
|
|
return bind
|
|
}
|