625 lines
19 KiB
Go
625 lines
19 KiB
Go
package renamer
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import (
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"fmt"
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"sort"
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"strconv"
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"sync"
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"sync/atomic"
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"github.com/evanw/esbuild/internal/ast"
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"github.com/evanw/esbuild/internal/js_ast"
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"github.com/evanw/esbuild/internal/js_lexer"
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)
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func ComputeReservedNames(moduleScopes []*js_ast.Scope, symbols js_ast.SymbolMap) map[string]uint32 {
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names := make(map[string]uint32)
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// All keywords and strict mode reserved words are reserved names
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for k := range js_lexer.Keywords {
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names[k] = 1
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}
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for k := range js_lexer.StrictModeReservedWords {
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names[k] = 1
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}
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// All unbound symbols must be reserved names
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for _, scope := range moduleScopes {
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computeReservedNamesForScope(scope, symbols, names)
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}
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return names
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}
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func computeReservedNamesForScope(scope *js_ast.Scope, symbols js_ast.SymbolMap, names map[string]uint32) {
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for _, member := range scope.Members {
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symbol := symbols.Get(member.Ref)
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if symbol.Kind == js_ast.SymbolUnbound || symbol.MustNotBeRenamed {
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names[symbol.OriginalName] = 1
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}
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}
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for _, ref := range scope.Generated {
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symbol := symbols.Get(ref)
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if symbol.Kind == js_ast.SymbolUnbound || symbol.MustNotBeRenamed {
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names[symbol.OriginalName] = 1
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}
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}
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// If there's a direct "eval" somewhere inside the current scope, continue
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// traversing down the scope tree until we find it to get all reserved names
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if scope.ContainsDirectEval {
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for _, child := range scope.Children {
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if child.ContainsDirectEval {
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computeReservedNamesForScope(child, symbols, names)
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}
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}
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}
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}
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type Renamer interface {
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NameForSymbol(ref js_ast.Ref) string
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}
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////////////////////////////////////////////////////////////////////////////////
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// noOpRenamer
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type noOpRenamer struct {
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symbols js_ast.SymbolMap
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}
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func NewNoOpRenamer(symbols js_ast.SymbolMap) Renamer {
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return &noOpRenamer{
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symbols: symbols,
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}
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}
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func (r *noOpRenamer) NameForSymbol(ref js_ast.Ref) string {
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ref = js_ast.FollowSymbols(r.symbols, ref)
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return r.symbols.Get(ref).OriginalName
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}
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////////////////////////////////////////////////////////////////////////////////
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// MinifyRenamer
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type symbolSlot struct {
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name string
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count uint32
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needsCapitalForJSX uint32 // This is really a bool but needs to be atomic
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}
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type MinifyRenamer struct {
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symbols js_ast.SymbolMap
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reservedNames map[string]uint32
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slots [3][]symbolSlot
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topLevelSymbolToSlot map[js_ast.Ref]uint32
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}
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func NewMinifyRenamer(symbols js_ast.SymbolMap, firstTopLevelSlots js_ast.SlotCounts, reservedNames map[string]uint32) *MinifyRenamer {
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return &MinifyRenamer{
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symbols: symbols,
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reservedNames: reservedNames,
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slots: [3][]symbolSlot{
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make([]symbolSlot, firstTopLevelSlots[0]),
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make([]symbolSlot, firstTopLevelSlots[1]),
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make([]symbolSlot, firstTopLevelSlots[2]),
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},
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topLevelSymbolToSlot: make(map[js_ast.Ref]uint32),
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}
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}
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func (r *MinifyRenamer) NameForSymbol(ref js_ast.Ref) string {
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// Follow links to get to the underlying symbol
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ref = js_ast.FollowSymbols(r.symbols, ref)
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symbol := r.symbols.Get(ref)
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// Skip this symbol if the name is pinned
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ns := symbol.SlotNamespace()
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if ns == js_ast.SlotMustNotBeRenamed {
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return symbol.OriginalName
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}
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// Check if it's a nested scope symbol
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i := symbol.NestedScopeSlot
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// If it's not (i.e. it's in a top-level scope), look up the slot
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if !i.IsValid() {
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index, ok := r.topLevelSymbolToSlot[ref]
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if !ok {
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// If we get here, then we're printing a symbol that never had any
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// recorded uses. This is odd but can happen in certain scenarios.
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// For example, code in a branch with dead control flow won't mark
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// any uses but may still be printed. In that case it doesn't matter
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// what name we use since it's dead code.
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return symbol.OriginalName
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}
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i = ast.MakeIndex32(index)
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}
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return r.slots[ns][i.GetIndex()].name
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}
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// The sort order here is arbitrary but needs to be consistent between builds.
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// The InnerIndex should be stable because the parser for a single file is
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// single-threaded and deterministically assigns out InnerIndex values
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// sequentially. But the SourceIndex should be unstable because the main thread
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// assigns out source index values sequentially to newly-discovered dependencies
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// in a multi-threaded producer/consumer relationship. So instead we use the
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// index of the source in the DFS order over all entry points for stability.
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type DeferredTopLevelSymbol struct {
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StableSourceIndex uint32
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Ref js_ast.Ref
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Count uint32
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}
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// This type is just so we can use Go's native sort function
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type DeferredTopLevelSymbolArray []DeferredTopLevelSymbol
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func (a DeferredTopLevelSymbolArray) Len() int { return len(a) }
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func (a DeferredTopLevelSymbolArray) Swap(i int, j int) { a[i], a[j] = a[j], a[i] }
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func (a DeferredTopLevelSymbolArray) Less(i int, j int) bool {
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ai, aj := a[i], a[j]
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if ai.StableSourceIndex < aj.StableSourceIndex {
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return true
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}
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if ai.StableSourceIndex > aj.StableSourceIndex {
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return false
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}
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if ai.Ref.InnerIndex < aj.Ref.InnerIndex {
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return true
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}
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if ai.Ref.InnerIndex > aj.Ref.InnerIndex {
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return false
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}
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return ai.Count < aj.Count
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}
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func (r *MinifyRenamer) AccumulateSymbolUseCounts(
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topLevelSymbols *DeferredTopLevelSymbolArray,
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symbolUses map[js_ast.Ref]js_ast.SymbolUse,
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stableSourceIndices []uint32,
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) {
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// NOTE: This function is run in parallel. Make sure to avoid data races.
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for ref, use := range symbolUses {
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r.AccumulateSymbolCount(topLevelSymbols, ref, use.CountEstimate, stableSourceIndices)
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}
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}
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func (r *MinifyRenamer) AccumulateSymbolCount(
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topLevelSymbols *DeferredTopLevelSymbolArray,
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ref js_ast.Ref,
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count uint32,
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stableSourceIndices []uint32,
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) {
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// NOTE: This function is run in parallel. Make sure to avoid data races.
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// Follow links to get to the underlying symbol
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ref = js_ast.FollowSymbols(r.symbols, ref)
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symbol := r.symbols.Get(ref)
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for symbol.NamespaceAlias != nil {
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ref = js_ast.FollowSymbols(r.symbols, symbol.NamespaceAlias.NamespaceRef)
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symbol = r.symbols.Get(ref)
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}
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// Skip this symbol if the name is pinned
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ns := symbol.SlotNamespace()
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if ns == js_ast.SlotMustNotBeRenamed {
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return
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}
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// Check if it's a nested scope symbol
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if i := symbol.NestedScopeSlot; i.IsValid() {
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// If it is, accumulate the count using a parallel-safe atomic increment
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slot := &r.slots[ns][i.GetIndex()]
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atomic.AddUint32(&slot.count, count)
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if symbol.MustStartWithCapitalLetterForJSX {
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atomic.StoreUint32(&slot.needsCapitalForJSX, 1)
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}
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return
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}
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// If it's a top-level symbol, defer it to later since we have
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// to allocate slots for these in serial instead of in parallel
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*topLevelSymbols = append(*topLevelSymbols, DeferredTopLevelSymbol{
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StableSourceIndex: stableSourceIndices[ref.SourceIndex],
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Ref: ref,
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Count: count,
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})
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}
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// The parallel part of the symbol count accumulation algorithm above processes
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// nested symbols and generates on an array of top-level symbols to process later.
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// After the parallel part has finished, that array of top-level symbols is passed
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// to this function which processes them in serial.
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func (r *MinifyRenamer) AllocateTopLevelSymbolSlots(topLevelSymbols DeferredTopLevelSymbolArray) {
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for _, stable := range topLevelSymbols {
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symbol := r.symbols.Get(stable.Ref)
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slots := &r.slots[symbol.SlotNamespace()]
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if i, ok := r.topLevelSymbolToSlot[stable.Ref]; ok {
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slot := &(*slots)[i]
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slot.count += stable.Count
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if symbol.MustStartWithCapitalLetterForJSX {
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slot.needsCapitalForJSX = 1
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}
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} else {
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needsCapitalForJSX := uint32(0)
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if symbol.MustStartWithCapitalLetterForJSX {
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needsCapitalForJSX = 1
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}
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i = uint32(len(*slots))
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*slots = append(*slots, symbolSlot{
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count: stable.Count,
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needsCapitalForJSX: needsCapitalForJSX,
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})
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r.topLevelSymbolToSlot[stable.Ref] = i
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}
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}
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}
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func (r *MinifyRenamer) AssignNamesByFrequency(minifier *js_ast.NameMinifier) {
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for ns, slots := range r.slots {
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// Sort symbols by count
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sorted := make(slotAndCountArray, len(slots))
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for i, item := range slots {
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sorted[i] = slotAndCount{slot: uint32(i), count: item.count}
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}
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sort.Sort(sorted)
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// Assign names to symbols
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nextName := 0
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for _, data := range sorted {
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slot := &slots[data.slot]
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name := minifier.NumberToMinifiedName(nextName)
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nextName++
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// Make sure we never generate a reserved name. We only have to worry
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// about collisions with reserved identifiers for normal symbols, and we
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// only have to worry about collisions with keywords for labels. We do
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// not have to worry about either for private names because they start
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// with a "#" character.
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switch js_ast.SlotNamespace(ns) {
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case js_ast.SlotDefault:
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for r.reservedNames[name] != 0 {
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name = minifier.NumberToMinifiedName(nextName)
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nextName++
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}
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// Make sure names of symbols used in JSX elements start with a capital letter
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if slot.needsCapitalForJSX != 0 {
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for name[0] >= 'a' && name[0] <= 'z' {
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name = minifier.NumberToMinifiedName(nextName)
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nextName++
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}
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}
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case js_ast.SlotLabel:
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for js_lexer.Keywords[name] != 0 {
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name = minifier.NumberToMinifiedName(nextName)
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nextName++
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}
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}
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// Private names must be prefixed with "#"
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if js_ast.SlotNamespace(ns) == js_ast.SlotPrivateName {
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name = "#" + name
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}
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slot.name = name
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}
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}
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}
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// Returns the number of nested slots
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func AssignNestedScopeSlots(moduleScope *js_ast.Scope, symbols []js_ast.Symbol) (slotCounts js_ast.SlotCounts) {
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// Temporarily set the nested scope slots of top-level symbols to valid so
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// they aren't renamed in nested scopes. This prevents us from accidentally
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// assigning nested scope slots to variables declared using "var" in a nested
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// scope that are actually hoisted up to the module scope to become a top-
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// level symbol.
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validSlot := ast.MakeIndex32(1)
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for _, member := range moduleScope.Members {
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symbols[member.Ref.InnerIndex].NestedScopeSlot = validSlot
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}
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for _, ref := range moduleScope.Generated {
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symbols[ref.InnerIndex].NestedScopeSlot = validSlot
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}
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// Assign nested scope slots independently for each nested scope
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for _, child := range moduleScope.Children {
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slotCounts.UnionMax(assignNestedScopeSlotsHelper(child, symbols, js_ast.SlotCounts{}))
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}
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// Then set the nested scope slots of top-level symbols back to zero. Top-
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// level symbols are not supposed to have nested scope slots.
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for _, member := range moduleScope.Members {
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symbols[member.Ref.InnerIndex].NestedScopeSlot = ast.Index32{}
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}
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for _, ref := range moduleScope.Generated {
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symbols[ref.InnerIndex].NestedScopeSlot = ast.Index32{}
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}
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return
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}
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func assignNestedScopeSlotsHelper(scope *js_ast.Scope, symbols []js_ast.Symbol, slot js_ast.SlotCounts) js_ast.SlotCounts {
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// Sort member map keys for determinism
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sortedMembers := make([]int, 0, len(scope.Members))
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for _, member := range scope.Members {
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sortedMembers = append(sortedMembers, int(member.Ref.InnerIndex))
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}
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sort.Ints(sortedMembers)
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// Assign slots for this scope's symbols. Only do this if the slot is
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// not already assigned. Nested scopes have copies of symbols from parent
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// scopes and we want to use the slot from the parent scope, not child scopes.
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for _, innerIndex := range sortedMembers {
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symbol := &symbols[innerIndex]
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if ns := symbol.SlotNamespace(); ns != js_ast.SlotMustNotBeRenamed && !symbol.NestedScopeSlot.IsValid() {
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symbol.NestedScopeSlot = ast.MakeIndex32(slot[ns])
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slot[ns]++
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}
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}
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for _, ref := range scope.Generated {
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symbol := &symbols[ref.InnerIndex]
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if ns := symbol.SlotNamespace(); ns != js_ast.SlotMustNotBeRenamed && !symbol.NestedScopeSlot.IsValid() {
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symbol.NestedScopeSlot = ast.MakeIndex32(slot[ns])
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slot[ns]++
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}
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}
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// Labels are always declared in a nested scope, so we don't need to check.
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if scope.Label.Ref != js_ast.InvalidRef {
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symbol := &symbols[scope.Label.Ref.InnerIndex]
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symbol.NestedScopeSlot = ast.MakeIndex32(slot[js_ast.SlotLabel])
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slot[js_ast.SlotLabel]++
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}
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// Assign slots for the symbols of child scopes
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slotCounts := slot
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for _, child := range scope.Children {
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slotCounts.UnionMax(assignNestedScopeSlotsHelper(child, symbols, slot))
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}
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return slotCounts
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}
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type slotAndCount struct {
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slot uint32
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count uint32
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}
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// This type is just so we can use Go's native sort function
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type slotAndCountArray []slotAndCount
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func (a slotAndCountArray) Len() int { return len(a) }
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func (a slotAndCountArray) Swap(i int, j int) { a[i], a[j] = a[j], a[i] }
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func (a slotAndCountArray) Less(i int, j int) bool {
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ai, aj := a[i], a[j]
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return ai.count > aj.count || (ai.count == aj.count && ai.slot < aj.slot)
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}
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////////////////////////////////////////////////////////////////////////////////
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// NumberRenamer
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type NumberRenamer struct {
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symbols js_ast.SymbolMap
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names [][]string
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root numberScope
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}
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func NewNumberRenamer(symbols js_ast.SymbolMap, reservedNames map[string]uint32) *NumberRenamer {
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return &NumberRenamer{
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symbols: symbols,
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names: make([][]string, len(symbols.SymbolsForSource)),
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root: numberScope{nameCounts: reservedNames},
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}
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}
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func (r *NumberRenamer) NameForSymbol(ref js_ast.Ref) string {
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ref = js_ast.FollowSymbols(r.symbols, ref)
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if inner := r.names[ref.SourceIndex]; inner != nil {
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if name := inner[ref.InnerIndex]; name != "" {
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return name
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}
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}
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return r.symbols.Get(ref).OriginalName
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}
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func (r *NumberRenamer) AddTopLevelSymbol(ref js_ast.Ref) {
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r.assignName(&r.root, ref)
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}
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func (r *NumberRenamer) assignName(scope *numberScope, ref js_ast.Ref) {
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ref = js_ast.FollowSymbols(r.symbols, ref)
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// Don't rename the same symbol more than once
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inner := r.names[ref.SourceIndex]
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if inner != nil && inner[ref.InnerIndex] != "" {
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return
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}
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// Don't rename unbound symbols, symbols marked as reserved names, labels, or private names
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symbol := r.symbols.Get(ref)
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if symbol.SlotNamespace() != js_ast.SlotDefault {
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return
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}
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// Make sure names of symbols used in JSX elements start with a capital letter
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originalName := symbol.OriginalName
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if symbol.MustStartWithCapitalLetterForJSX {
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if first := rune(originalName[0]); first >= 'a' && first <= 'z' {
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originalName = fmt.Sprintf("%c%s", first+('A'-'a'), originalName[1:])
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}
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}
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// Compute a new name
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name := scope.findUnusedName(originalName)
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// Store the new name
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if inner == nil {
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// Note: This should not be a data race even though this method is run from
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// multiple threads. The parallel part only looks at symbols defined in
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// nested scopes, and those can only ever be accessed from within the file.
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// References to those symbols should never spread across files.
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//
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// While we could avoid the data race by densely preallocating the entire
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// "names" array ahead of time, that will waste a lot more memory for
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// builds that make heavy use of code splitting and have many chunks. Doing
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// things lazily like this means we use less memory but still stay safe.
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inner = make([]string, len(r.symbols.SymbolsForSource[ref.SourceIndex]))
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r.names[ref.SourceIndex] = inner
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}
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inner[ref.InnerIndex] = name
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}
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func (r *NumberRenamer) assignNamesRecursive(scope *js_ast.Scope, sourceIndex uint32, parent *numberScope, sorted *[]int) {
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s := &numberScope{parent: parent, nameCounts: make(map[string]uint32)}
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// Sort member map keys for determinism, reusing a shared memory buffer
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*sorted = (*sorted)[:0]
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for _, member := range scope.Members {
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*sorted = append(*sorted, int(member.Ref.InnerIndex))
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}
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sort.Ints(*sorted)
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// Rename all symbols in this scope
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for _, innerIndex := range *sorted {
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r.assignName(s, js_ast.Ref{SourceIndex: sourceIndex, InnerIndex: uint32(innerIndex)})
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}
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for _, ref := range scope.Generated {
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r.assignName(s, ref)
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}
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// Symbols in child scopes may also have to be renamed to avoid conflicts
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for _, child := range scope.Children {
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r.assignNamesRecursive(child, sourceIndex, s, sorted)
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}
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}
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func (r *NumberRenamer) AssignNamesByScope(nestedScopes map[uint32][]*js_ast.Scope) {
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waitGroup := sync.WaitGroup{}
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waitGroup.Add(len(nestedScopes))
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|
|
// Rename nested scopes from separate files in parallel
|
|
for sourceIndex, scopes := range nestedScopes {
|
|
go func(sourceIndex uint32, scopes []*js_ast.Scope) {
|
|
var sorted []int
|
|
for _, scope := range scopes {
|
|
r.assignNamesRecursive(scope, sourceIndex, &r.root, &sorted)
|
|
}
|
|
waitGroup.Done()
|
|
}(sourceIndex, scopes)
|
|
}
|
|
|
|
waitGroup.Wait()
|
|
}
|
|
|
|
type numberScope struct {
|
|
parent *numberScope
|
|
|
|
// This is used as a set of used names in this scope. This also maps the name
|
|
// to the number of times the name has experienced a collision. When a name
|
|
// collides with an already-used name, we need to rename it. This is done by
|
|
// incrementing a number at the end until the name is unused. We save the
|
|
// count here so that subsequent collisions can start counting from where the
|
|
// previous collision ended instead of having to start counting from 1.
|
|
nameCounts map[string]uint32
|
|
}
|
|
|
|
type nameUse uint8
|
|
|
|
const (
|
|
nameUnused nameUse = iota
|
|
nameUsed
|
|
nameUsedInSameScope
|
|
)
|
|
|
|
func (s *numberScope) findNameUse(name string) nameUse {
|
|
original := s
|
|
for {
|
|
if _, ok := s.nameCounts[name]; ok {
|
|
if s == original {
|
|
return nameUsedInSameScope
|
|
}
|
|
return nameUsed
|
|
}
|
|
s = s.parent
|
|
if s == nil {
|
|
return nameUnused
|
|
}
|
|
}
|
|
}
|
|
|
|
func (s *numberScope) findUnusedName(name string) string {
|
|
name = js_lexer.ForceValidIdentifier(name)
|
|
|
|
if use := s.findNameUse(name); use != nameUnused {
|
|
// If the name is already in use, generate a new name by appending a number
|
|
tries := uint32(1)
|
|
if use == nameUsedInSameScope {
|
|
// To avoid O(n^2) behavior, the number must start off being the number
|
|
// that we used last time there was a collision with this name. Otherwise
|
|
// if there are many collisions with the same name, each name collision
|
|
// would have to increment the counter past all previous name collisions
|
|
// which is a O(n^2) time algorithm. Only do this if this symbol comes
|
|
// from the same scope as the previous one since sibling scopes can reuse
|
|
// the same name without problems.
|
|
tries = s.nameCounts[name]
|
|
}
|
|
prefix := name
|
|
|
|
// Keep incrementing the number until the name is unused
|
|
for {
|
|
tries++
|
|
name = prefix + strconv.Itoa(int(tries))
|
|
|
|
// Make sure this new name is unused
|
|
if s.findNameUse(name) == nameUnused {
|
|
// Store the count so we can start here next time instead of starting
|
|
// from 1. This means we avoid O(n^2) behavior.
|
|
if use == nameUsedInSameScope {
|
|
s.nameCounts[prefix] = tries
|
|
}
|
|
break
|
|
}
|
|
}
|
|
}
|
|
|
|
// Each name starts off with a count of 1 so that the first collision with
|
|
// "name" is called "name2"
|
|
s.nameCounts[name] = 1
|
|
return name
|
|
}
|
|
|
|
////////////////////////////////////////////////////////////////////////////////
|
|
// ExportRenamer
|
|
|
|
type ExportRenamer struct {
|
|
count int
|
|
used map[string]uint32
|
|
}
|
|
|
|
func (r *ExportRenamer) NextRenamedName(name string) string {
|
|
if r.used == nil {
|
|
r.used = make(map[string]uint32)
|
|
}
|
|
if tries, ok := r.used[name]; ok {
|
|
prefix := name
|
|
for {
|
|
tries++
|
|
name = prefix + strconv.Itoa(int(tries))
|
|
if _, ok := r.used[name]; !ok {
|
|
break
|
|
}
|
|
}
|
|
r.used[name] = tries
|
|
} else {
|
|
r.used[name] = 1
|
|
}
|
|
return name
|
|
}
|
|
|
|
func (r *ExportRenamer) NextMinifiedName() string {
|
|
name := js_ast.DefaultNameMinifier.NumberToMinifiedName(r.count)
|
|
r.count++
|
|
return name
|
|
}
|