diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 01:47:29 +0000 |
---|---|---|
committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 01:47:29 +0000 |
commit | 0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d (patch) | |
tree | a31f07c9bcca9d56ce61e9a1ffd30ef350d513aa /mfbt/AtomicBitfields.h | |
parent | Initial commit. (diff) | |
download | firefox-esr-0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d.tar.xz firefox-esr-0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d.zip |
Adding upstream version 115.8.0esr.upstream/115.8.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'mfbt/AtomicBitfields.h')
-rw-r--r-- | mfbt/AtomicBitfields.h | 468 |
1 files changed, 468 insertions, 0 deletions
diff --git a/mfbt/AtomicBitfields.h b/mfbt/AtomicBitfields.h new file mode 100644 index 0000000000..c61dc4df46 --- /dev/null +++ b/mfbt/AtomicBitfields.h @@ -0,0 +1,468 @@ +/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* vim: set ts=8 sts=2 et sw=2 tw=80: */ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#ifndef mozilla_AtomicBitfields_h +#define mozilla_AtomicBitfields_h + +#include "mozilla/Assertions.h" +#include "mozilla/MacroArgs.h" +#include "mozilla/MacroForEach.h" + +#include <limits> +#include <stdint.h> +#include <type_traits> + +#ifdef __wasi__ +# include "mozilla/WasiAtomic.h" +#else +# include <atomic> +#endif // __wasi__ + +namespace mozilla { + +// Creates a series of atomic bitfields. +// +// |aBitfields| is the name of the underlying storage for the bitfields. +// |aBitFieldsSize| is the size of the underlying storage (8, 16, 32, or 64). +// +// Bitfields are specified as a triplet of (type, name, size), which mirrors +// the way you declare native C++ bitfields (bool mMyField1: 1). Trailing +// commas are not supported in the list of bitfields. +// +// Signed integer types are not supported by this Macro to avoid dealing with +// packing/unpacking the sign bit and C++'s general messiness around signed +// integer representations not being fully defined. +// +// You cannot request a single field that's the +// size of the the entire bitfield storage. Just use a normal atomic integer! +// +// +// ========================== SEMANTICS AND SAFETY ============================ +// +// All fields are default-initialized to 0. +// +// In debug builds, storing a value to a bitfield that's larger than its bits +// can fit will trigger an assertion. In release builds, the value will just be +// masked off. +// +// If you request anything unsupported by this macro it should result in +// a compile-time error (either a static assert or just weird macro errors). +// For instance, this macro will statically prevent using more bits than +// |aBitFieldsSize|, so specifying the size is just to prevent accidentally +// making the storage bigger. +// +// Each field will get a Load$NAME and Store$Name method which will atomically +// load and store the requested value with a Sequentially Consistent memory +// order (to be on the safe side). Storing a field requires a compare-exchange, +// so a thread may get stalled if there's a lot of contention on the bitfields. +// +// +// ============================== MOTIVATION ================================== +// +// You might be wondering: why would I need atomic bitfields? Well as it turns +// out, bitfields and concurrency mess a lot of people up! +// +// CPUs don't have operations to write to a handful of bits -- they generally +// only have the precision of a byte. So when you use C++'s native bitfields, +// the compiler generates code to mask and shift the values in for you. This +// means writing to a single field will actually overwrite all the other +// bitfields that are packed in with it! +// +// In single-threaded code this is fine; the old values are loaded and written +// back by the compiler's generated code. But in concurrent code, it means +// that accessing two different fields can be an unexpected Data Race (which is +// Undefined Behavior!). +// +// By using MOZ_ATOMIC_BITFIELDS, you protect yourself from these Data Races, +// and don't have to worry about writes getting lost. +// +// +// ================================ EXAMPLE =================================== +// +// #include "mozilla/AtomicBitfields.h" +// #include <stdint.h> +// +// +// struct MyType { +// MOZ_ATOMIC_BITFIELDS(mAtomicFields, 8, ( +// (bool, IsDownloaded, 1), +// (uint32_t, SomeData, 2), +// (uint8_t, OtherData, 5) +// )) +// +// int32_t aNormalInteger; +// +// explicit MyType(uint32_t aSomeData): aNormalInteger(7) { +// StoreSomeData(aSomeData); +// // Other bitfields were already default initialized to 0/false +// } +// }; +// +// +// int main() { +// MyType val(3); +// +// if (!val.LoadIsDownloaded()) { +// val.StoreOtherData(2); +// val.StoreIsDownloaded(true); +// } +// } +// +// +// ============================== GENERATED =================================== +// +// This macro is a real mess to read because, well, it's a macro. So for the +// sake of anyone who has to review or modify its internals, here's a rough +// sketch of what the above example would expand to: +// +// struct MyType { +// // The actual storage of the bitfields, initialized to 0. +// std::atomic_uint8_t mAtomicFields{0}; +// +// // How many bits were actually used (in this case, all of them). +// static const size_t mAtomicFields_USED_BITS = 8; +// +// // The offset values for each field. +// static const size_t mAtomicFieldsIsDownloaded = 0; +// static const size_t mAtomicFieldsSomeData = 1; +// static const size_t mAtomicFieldsOtherData = 3; +// +// // Quick safety guard to prevent capacity overflow. +// static_assert(mAtomicFields_USED_BITS <= 8); +// +// // Asserts that fields are reasonable. +// static_assert(8>1, "mAtomicFields: MOZ_ATOMIC_BITFIELDS field too big"); +// static_assert(std::is_unsigned<bool>(), "mAtomicFields: +// MOZ_ATOMIC_BITFIELDS doesn't support signed payloads"); +// // ...and so on +// +// // Load/Store methods for all the fields. +// +// bool LoadIsDownloaded() { ... } +// void StoreIsDownloaded(bool aValue) { ... } +// +// uint32_t LoadSomeData() { ... } +// void StoreSomeData(uint32_t aValue) { ... } +// +// uint8_t LoadOtherData() { ... } +// void StoreOtherData(uint8_t aValue) { ... } +// +// +// // Remainder of the struct body continues normally. +// int32_t aNormalInteger; +// explicit MyType(uint32_t aSomeData): aNormalInteger(7) { +// StoreSomeData(aSomeData); +// // Other bitfields were already default initialized to 0/false. +// } +// } +// +// Also if you're wondering why there's so many MOZ_CONCAT's -- it's because +// the preprocessor sometimes gets confused if we use ## on certain arguments. +// MOZ_CONCAT reliably kept the preprocessor happy, sorry it's so ugly! +// +// +// ==================== FIXMES / FUTURE WORK ================================== +// +// * It would be nice if LoadField could be IsField for booleans. +// +// * For the case of setting something to all 1's or 0's, we can use +// |fetch_or| or |fetch_and| instead of |compare_exchange_weak|. Is this +// worth providing? (Possibly for 1-bit boolean fields?) +// +// * Try harder to hide the atomic/enum/array internals from +// the outer struct? +// +#define MOZ_ATOMIC_BITFIELDS(aBitfields, aBitfieldsSize, aFields) \ + std::atomic_uint##aBitfieldsSize##_t aBitfields{0}; \ + \ + static const size_t MOZ_CONCAT(aBitfields, _USED_BITS) = \ + MOZ_FOR_EACH_SEPARATED(MOZ_ATOMIC_BITFIELDS_FIELD_SIZE, (+), (), \ + aFields); \ + \ + MOZ_ROLL_EACH(MOZ_ATOMIC_BITFIELDS_OFFSET_HELPER1, (aBitfields, ), aFields) \ + \ + static_assert(MOZ_CONCAT(aBitfields, _USED_BITS) <= aBitfieldsSize, \ + #aBitfields ": Maximum bits (" #aBitfieldsSize \ + ") exceeded for MOZ_ATOMIC_BITFIELDS instance"); \ + \ + MOZ_FOR_EACH(MOZ_ATOMIC_BITFIELDS_FIELD_HELPER, \ + (aBitfields, aBitfieldsSize, ), aFields) + +// Just a helper to unpack the head of the list. +#define MOZ_ATOMIC_BITFIELDS_OFFSET_HELPER1(aBitfields, aFields) \ + MOZ_ATOMIC_BITFIELDS_OFFSET_HELPER2(aBitfields, MOZ_ARG_1 aFields, aFields); + +// Just a helper to unpack the name and call the real function. +#define MOZ_ATOMIC_BITFIELDS_OFFSET_HELPER2(aBitfields, aField, aFields) \ + MOZ_ATOMIC_BITFIELDS_OFFSET(aBitfields, MOZ_ARG_2 aField, aFields) + +// To compute the offset of a field, why sum up all the offsets after it +// (inclusive) and subtract that from the total sum itself. We do this to swap +// the rolling sum that |MOZ_ROLL_EACH| gets us from descending to ascending. +#define MOZ_ATOMIC_BITFIELDS_OFFSET(aBitfields, aFieldName, aFields) \ + static const size_t MOZ_CONCAT(aBitfields, aFieldName) = \ + MOZ_CONCAT(aBitfields, _USED_BITS) - \ + (MOZ_FOR_EACH_SEPARATED(MOZ_ATOMIC_BITFIELDS_FIELD_SIZE, (+), (), \ + aFields)); + +// Just a more clearly named way of unpacking the size. +#define MOZ_ATOMIC_BITFIELDS_FIELD_SIZE(aArgs) MOZ_ARG_3 aArgs + +// Just a helper to unpack the tuple and call the real function. +#define MOZ_ATOMIC_BITFIELDS_FIELD_HELPER(aBitfields, aBitfieldsSize, aArgs) \ + MOZ_ATOMIC_BITFIELDS_FIELD(aBitfields, aBitfieldsSize, MOZ_ARG_1 aArgs, \ + MOZ_ARG_2 aArgs, MOZ_ARG_3 aArgs) + +// We need to disable this with coverity because it doesn't like checking that +// booleans are < 2 (because they always are). +#ifdef __COVERITY__ +# define MOZ_ATOMIC_BITFIELDS_STORE_GUARD(aValue, aFieldSize) +#else +# define MOZ_ATOMIC_BITFIELDS_STORE_GUARD(aValue, aFieldSize) \ + MOZ_ASSERT(((uint64_t)aValue) < (1ull << aFieldSize), \ + "Stored value exceeded capacity of bitfield!") +#endif + +// Generates the Load and Store methods for each field. +// +// Some comments here because inline macro comments are a pain in the neck: +// +// Most of the locals are forward declared to minimize messy macroified +// type declaration. Also a lot of locals are used to try to make things +// a little more clear, while also avoiding integer promotion issues. +// This is why some locals are literally just copying a value we already have: +// to force it to the right size. +// +// There's an annoying overflow case where a bitfields instance has a field +// that is the same size as the bitfields. Rather than trying to handle that, +// we just static_assert against it. +// +// +// BITMATH EXPLAINED: +// +// For |Load$Name|: +// +// mask = ((1 << fieldSize) - 1) << offset +// +// If you subtract 1 from a value with 1 bit set you get all 1's below that bit. +// This is perfect for ANDing out |fieldSize| bits. We shift by |offset| to get +// it in the right place. +// +// value = (aBitfields.load() & mask) >> offset +// +// This sets every bit we're not interested in to 0. Shifting the result by +// |offset| converts the value back to its native format, ready to be cast +// up to an integer type. +// +// +// For |Store$Name|: +// +// packedValue = (resizedValue << offset) & mask +// +// This converts a native value to the packed format. If the value is in bounds, +// the AND will do nothing. If it's out of bounds (not checked in release), +// then it will cause the value to wrap around by modulo 2^aFieldSize, just like +// a normal uint. +// +// clearedValue = oldValue & ~mask; +// +// This clears the bits where our field is stored on our bitfield storage by +// ANDing it with an inverted (NOTed) mask. +// +// newValue = clearedValue | packedValue; +// +// Once we have |packedValue| and |clearedValue| they just need to be ORed +// together to merge the new field value with the old values of all the other +// fields. +// +// This last step is done in a while loop because someone else can modify +// the bits before we have a chance to. If we didn't guard against this, +// our write would undo the write the other thread did. |compare_exchange_weak| +// is specifically designed to handle this. We give it what we expect the +// current value to be, and what we want it to be. If someone else modifies +// the bitfields before us, then we will reload the value and try again. +// +// Note that |compare_exchange_weak| writes back the actual value to the +// "expected" argument (it's passed by-reference), so we don't need to do +// another load in the body of the loop when we fail to write our result. +#define MOZ_ATOMIC_BITFIELDS_FIELD(aBitfields, aBitfieldsSize, aFieldType, \ + aFieldName, aFieldSize) \ + static_assert(aBitfieldsSize > aFieldSize, \ + #aBitfields ": MOZ_ATOMIC_BITFIELDS field too big"); \ + static_assert(std::is_unsigned<aFieldType>(), #aBitfields \ + ": MOZ_ATOMIC_BITFIELDS doesn't support signed payloads"); \ + \ + aFieldType MOZ_CONCAT(Load, aFieldName)() const { \ + uint##aBitfieldsSize##_t fieldSize, mask, masked, value; \ + size_t offset = MOZ_CONCAT(aBitfields, aFieldName); \ + fieldSize = aFieldSize; \ + mask = ((1ull << fieldSize) - 1ull) << offset; \ + masked = aBitfields.load() & mask; \ + value = (masked >> offset); \ + return value; \ + } \ + \ + void MOZ_CONCAT(Store, aFieldName)(aFieldType aValue) { \ + MOZ_ATOMIC_BITFIELDS_STORE_GUARD(aValue, aFieldSize); \ + uint##aBitfieldsSize##_t fieldSize, mask, resizedValue, packedValue, \ + oldValue, clearedValue, newValue; \ + size_t offset = MOZ_CONCAT(aBitfields, aFieldName); \ + fieldSize = aFieldSize; \ + mask = ((1ull << fieldSize) - 1ull) << offset; \ + resizedValue = aValue; \ + packedValue = (resizedValue << offset) & mask; \ + oldValue = aBitfields.load(); \ + do { \ + clearedValue = oldValue & ~mask; \ + newValue = clearedValue | packedValue; \ + } while (!aBitfields.compare_exchange_weak(oldValue, newValue)); \ + } + +// OK SO THIS IS A GROSS HACK. GCC 10.2 (and below) has a bug[1] where it +// doesn't allow a static array to reference itself in its initializer, so we +// need to create a hacky way to produce a rolling sum of all the offsets. +// +// To do this, we make a tweaked version of |MOZ_FOR_EACH| which instead of +// passing just one argument to |aMacro| it passes the remaining values of +// |aArgs|. +// +// This allows us to expand an input (a, b, c, d) quadratically to: +// +// int sum1 = a + b + c + d; +// int sum2 = b + c + d; +// int sum3 = c + d; +// int sum4 = d; +// +// So all of this is a copy-paste of |MOZ_FOR_EACH| except the definition +// of |MOZ_FOR_EACH_HELPER| no longer extracts an argument with |MOZ_ARG_1|. +// Also this is restricted to 32 arguments just to reduce footprint a little. +// +// If the GCC bug is ever fixed, then this hack can be removed, and we can +// use the non-quadratic version that was originally written[2]. In case +// that link dies, a brief summary of that implementation: +// +// * Associate each field with an index by creating an `enum class` with +// entries for each field (an existing gecko patten). +// +// * Calculate offsets with a constexpr static array whose initializer +// self-referentially adds the contents of the previous index to the +// compute the current one. +// +// * Index into this array with the enum. +// +// [1] https://gcc.gnu.org/bugzilla/show_bug.cgi?id=97234 +// [2]: https://phabricator.services.mozilla.com/D91622?id=346499 +#define MOZ_ROLL_EACH_EXPAND_HELPER(...) __VA_ARGS__ +#define MOZ_ROLL_EACH_GLUE(a, b) a b +#define MOZ_ROLL_EACH_SEPARATED(aMacro, aSeparator, aFixedArgs, aArgs) \ + MOZ_ROLL_EACH_GLUE(MOZ_PASTE_PREFIX_AND_ARG_COUNT( \ + MOZ_ROLL_EACH_, MOZ_ROLL_EACH_EXPAND_HELPER aArgs), \ + (aMacro, aSeparator, aFixedArgs, aArgs)) +#define MOZ_ROLL_EACH(aMacro, aFixedArgs, aArgs) \ + MOZ_ROLL_EACH_SEPARATED(aMacro, (), aFixedArgs, aArgs) + +#define MOZ_ROLL_EACH_HELPER_GLUE(a, b) a b +#define MOZ_ROLL_EACH_HELPER(aMacro, aFixedArgs, aArgs) \ + MOZ_ROLL_EACH_HELPER_GLUE(aMacro, \ + (MOZ_ROLL_EACH_EXPAND_HELPER aFixedArgs aArgs)) + +#define MOZ_ROLL_EACH_0(m, s, fa, a) +#define MOZ_ROLL_EACH_1(m, s, fa, a) MOZ_ROLL_EACH_HELPER(m, fa, a) +#define MOZ_ROLL_EACH_2(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_1(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_3(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_2(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_4(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_3(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_5(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_4(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_6(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_5(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_7(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_6(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_8(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_7(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_9(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_8(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_10(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_9(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_11(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_10(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_12(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_11(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_13(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_12(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_14(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_13(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_15(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_14(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_16(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_15(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_17(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_16(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_18(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_17(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_19(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_18(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_20(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_19(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_21(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_20(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_22(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_21(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_23(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_22(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_24(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_23(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_25(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_24(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_26(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_25(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_27(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_26(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_28(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_27(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_29(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_28(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_30(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_29(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_31(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_30(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +#define MOZ_ROLL_EACH_32(m, s, fa, a) \ + MOZ_ROLL_EACH_HELPER(m, fa, a) \ + MOZ_ROLL_EACH_EXPAND_HELPER s MOZ_ROLL_EACH_31(m, s, fa, (MOZ_ARGS_AFTER_1 a)) +} // namespace mozilla +#endif /* mozilla_AtomicBitfields_h */ |