mirror of
https://github.com/dart-lang/sdk
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93e73bf93a
This is follow up to65f4a733bb
, which switched optimized code to use fixed frame for outgoing arguments. Change Kernel to IL translation to handle null-checks in invocations differently: this code used to duplicate receiver on the stack to accomodate for PushArgument in unoptimized code, but PushArgument has not been inserted sincef4e61eacfd
, which means duplication of the receiver is no longer necessary. TEST=ci Cq-Include-Trybots: luci.dart.try:vm-kernel-precomp-linux-debug-x64-try,vm-kernel-precomp-dwarf-linux-product-x64-try,vm-kernel-precomp-linux-release-simarm-try,vm-kernel-precomp-linux-release-x64-try,vm-kernel-precomp-nnbd-linux-debug-simarm_x64-try,vm-kernel-precomp-nnbd-linux-release-simarm64-try Change-Id: I6c1f1e8c354f9ea92424b6602b83b9e9ebce8b69 Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/284184 Commit-Queue: Slava Egorov <vegorov@google.com> Reviewed-by: Martin Kustermann <kustermann@google.com>
227 lines
9.5 KiB
C++
227 lines
9.5 KiB
C++
// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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#ifndef RUNTIME_VM_TOKEN_POSITION_H_
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#define RUNTIME_VM_TOKEN_POSITION_H_
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#include "platform/utils.h"
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#include "vm/allocation.h"
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namespace dart {
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// The token space is organized as follows:
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//
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// Sentinel values start at -1 and move towards negative infinity:
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// kNoSourcePos -> -1
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// ClassifyingTokenPositions 1 -> -1 - 1
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// ClassifyingTokenPositions N -> -1 - N
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//
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// Real token positions represent source offsets in some script, and are encoded
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// as non-negative values which are equal to that offset.
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//
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// Synthetically created functions that correspond to user code are given
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// starting token positions unique from other synthetic functions. The value for
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// these token positions encode a unique non-negative value as a negative number
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// within [kSmiMin32, -1 - N).
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//
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// For example:
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// A synthetic token with value 0 is encoded as ((-1 - N) - (0 + 1)) = -2 - N.
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// A synthetic token with value 1 is encoded as ((-1 - N) - (1 + 1)) = -3 - N.
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//
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// Note that the encoded value is _not_ related to any possible real token
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// position, as two real token positions for different scripts can have the same
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// value and thus cannot serve as a unique nonce for a synthetic node.
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//
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// All other nodes read from user code, such as non-synthetic functions, fields,
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// etc., are given real starting token positions. All nodes coming from user
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// code, both real or synthetic, with ending token positions have real ending
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// token positions.
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//
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// This organization allows for ~1 billion token positions.
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#define SENTINEL_TOKEN_DESCRIPTORS(V) \
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V(NoSource, -1) \
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V(Box, -2) \
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V(ParallelMove, -3) \
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V(TempMove, -4) \
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V(Constant, -5) \
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V(MoveArgument, -6) \
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V(ControlFlow, -7) \
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V(Context, -8) \
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V(MethodExtractor, -9) \
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V(DeferredSlowPath, -10) \
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V(DeferredDeoptInfo, -11) \
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V(DartCodePrologue, -12) \
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V(DartCodeEpilogue, -13) \
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V(Last, -14) // Always keep this at the end.
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// A token position represents either a debug safe source (real) position,
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// non-debug safe unique (synthetic) position, or a classifying value used
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// by the profiler.
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class TokenPosition {
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public:
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uword Hash() const;
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// Returns whether the token positions are equal. Defined for all token
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// positions.
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bool operator==(const TokenPosition& b) const { return value() == b.value(); }
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// Returns whether the token positions are not equal. Defined for all token
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// positions.
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bool operator!=(const TokenPosition& b) const { return !(*this == b); }
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// Returns whether the token position is less than [b]. Only defined for
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// real token positions.
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inline bool operator<(const TokenPosition& b) const {
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return Pos() < b.Pos();
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}
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// Returns whether the token position is greater than [b]. Only defined for
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// real token positions.
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inline bool operator>(const TokenPosition& b) const { return b < *this; }
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// Returns whether the token position is less than or equal to [b]. Only
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// defined for real token positions.
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inline bool operator<=(const TokenPosition& b) const { return !(*this > b); }
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// Returns whether the token position is greater than or equal to [b]. Only
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// defined for real token positions.
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inline bool operator>=(const TokenPosition& b) const { return !(*this < b); }
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// For real token positions, returns whether this is between [a] and [b],
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// inclusive. If [a] or [b] is non-real, they are treated as less than
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// any real token position.
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//
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// For synthetic token positions, returns whether [a] or [b] equals this.
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//
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// For other token positions, always returns false.
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bool IsWithin(const TokenPosition& a, const TokenPosition& b) const {
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if (IsReal()) return (a.value() <= value()) && (value() <= b.value());
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if (IsSynthetic()) return (a == *this) || (b == *this);
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return false;
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}
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// Returns [a] if both positions are not real, the real position if only one
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// of [a] and [b] is real, or the minimum position of [a] and [b].
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static const TokenPosition& Min(const TokenPosition& a,
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const TokenPosition& b) {
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if (!b.IsReal()) return a;
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if (!a.IsReal()) return b;
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return b.value() < a.value() ? b : a;
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}
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// Returns [a] if both positions are not real, the real position if only one
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// of [a] and [b] is real, or the maximum position of [a] and [b].
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static const TokenPosition& Max(const TokenPosition& a,
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const TokenPosition& b) {
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if (!b.IsReal()) return a;
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if (!a.IsReal()) return b;
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return b.value() > a.value() ? b : a;
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}
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// Compares two arbitrary source positions for use in sorting, where a
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// negative return means [a] sorts before [b], a return of 0 means [a] is the
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// same as [b], and a positive return means [a] sorts after [b].
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//
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// Does _not_ correspond to the relational operators on token positions, as
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// this also allows comparison of kNoSource, classifying, and synthetic token
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// positions to each other.
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static intptr_t CompareForSorting(const TokenPosition& a,
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const TokenPosition& b) {
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return a.value() - b.value();
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}
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static constexpr int32_t kMaxSentinelDescriptors = 64;
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#define DECLARE_VALUES(name, value) \
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static constexpr int32_t k##name##Pos = value; \
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static const TokenPosition k##name;
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SENTINEL_TOKEN_DESCRIPTORS(DECLARE_VALUES);
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#undef DECLARE_VALUES
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// Check assumptions used in Is<X> methods below.
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#define CHECK_VALUES(name, value) \
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static_assert(k##name##Pos < 0, "Non-negative sentinel descriptor"); \
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static_assert( \
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k##name##Pos == kNoSourcePos || k##name##Pos <= kBoxPos, \
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"Box sentinel descriptor is not greatest classifying sentinel value"); \
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static_assert(kLastPos <= k##name##Pos, \
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"Last sentinel descriptor is not least sentinel valu"); \
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SENTINEL_TOKEN_DESCRIPTORS(CHECK_VALUES);
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#undef CHECK_VALUES
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static_assert(kLastPos > -kMaxSentinelDescriptors,
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"More sentinel descriptors than expected");
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static constexpr int32_t kMinSourcePos = 0;
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static const TokenPosition kMinSource;
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static constexpr int32_t kMaxSourcePos =
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kSmiMax32 - kMaxSentinelDescriptors - 2;
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static const TokenPosition kMaxSource;
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// Decode from a serialized form.
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static TokenPosition Deserialize(int32_t value);
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// Encode into a serialized form.
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int32_t Serialize() const;
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// Given a real token position, returns the next real token position.
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TokenPosition Next() {
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ASSERT(IsReal());
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return TokenPosition(value_ + 1);
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}
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// Return the source position for real token positions.
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inline intptr_t Pos() const {
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ASSERT(IsReal());
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return value_;
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}
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// Is |this| a classifying sentinel source position?
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// Classifying positions are used by the profiler to group instructions whose
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// cost isn't naturally attributable to a source location.
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inline bool IsClassifying() const {
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return (value_ >= kBox.value()) && (value_ <= kLast.value());
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}
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// Is |this| the no source position sentinel?
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inline bool IsNoSource() const { return value_ == kNoSourcePos; }
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// Is |this| a synthetic source position?
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// Synthetic source positions are used by the profiler to attribute ticks to a
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// pieces of source, but ignored by the debugger as potential breakpoints.
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inline bool IsSynthetic() const { return value_ < kLastPos; }
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// Is |this| a real source position?
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inline bool IsReal() const { return value_ >= kMinSourcePos; }
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// Is |this| a debug pause source position?
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inline bool IsDebugPause() const { return IsReal(); }
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// Creates a synthetic source position from a non-negative value.
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static TokenPosition Synthetic(intptr_t value) {
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ASSERT(value >= 0 && value <= kMaxSourcePos);
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return TokenPosition((kLastPos - 1) - value);
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}
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// Encode the token position for storage in the coverage array.
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intptr_t EncodeCoveragePosition(bool is_branch_coverage);
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// Decode a token position that was stored in the coverage array.
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static TokenPosition DecodeCoveragePosition(intptr_t encoded_position,
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bool* is_branch_coverage);
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const char* ToCString() const;
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private:
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explicit TokenPosition(intptr_t value) : value_(value) {}
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// The raw value of this TokenPosition.
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intptr_t value() const { return value_; }
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int32_t value_;
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DISALLOW_ALLOCATION();
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};
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} // namespace dart
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#endif // RUNTIME_VM_TOKEN_POSITION_H_
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