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c3c/lib/std/atomic.c3
Christoffer Lerno e293c435af 0.6.0: init_new/init_temp removed. LinkedList API rewritten. List "pop" and "remove" function now return Optionals. RingBuffer API rewritten. Allocator interface changed. Deprecated Allocator, DString and mem functions removed. "identity" functions are now constants for Matrix and Complex numbers. @default implementations for interfaces removed. any* => any, same for interfaces. Emit local/private globals as "private" in LLVM, following C "static". Updated enum syntax. Add support [rgba] properties in vectors. Improved checks of aliased "void". Subarray -> slice. Fix of llvm codegen enum check. Improved alignment handling. Add --output-dir #1155. Removed List/Object append. GenericList renamed AnyList. Remove unused "unwrap". Fixes to cond. Optimize output in dead branches. Better checking of operator methods. Disallow any from implementing dynamic methods. Check for operator mismatch. Remove unnecessary bitfield. Remove numbering in --list* commands Old style enum declaration for params/type, but now the type is optional. Add note on #1086. Allow making distinct types out of "void", "typeid", "anyfault" and faults. Remove system linker build options. "Try" expressions must be simple expressions. Add optimized build to Mac tests. Register int. assert(false) only allowed in unused branches or in tests. Compile time failed asserts is a compile time error. Remove current_block_is_target. Bug when assigning an optional from an optional. Remove unused emit_zstring. Simplify phi code. Remove unnecessary unreachable blocks and remove unnecessary current_block NULL assignments. Proper handling of '.' and Win32 '//server' paths. Add "no discard" to expression blocks with a return value. Detect "unsigned >= 0" as errors. Fix issue with distinct void as a member #1147. Improve callstack debug information #1184. Fix issue with absolute output-dir paths. Lambdas were not type checked thoroughly #1185. Fix compilation warning #1187. Request jump table using @jump for switches. Path normalization - fix possible null terminator out of bounds. Improved error messages on inlined macros. 
Upgrade of mingw in CI. Fix problems using reflection on interface types #1203. Improved debug information on defer. $foreach doesn't create an implicit syntactic scope.
Error if `@if` depends on `@if`. Updated Linux stacktrace. Fix of default argument stacktrace. Allow linking libraries directly by file path. Improve inlining warning messages. Added `index_of_char_from`. Compiler crash using enum nameof from different module #1205. Removed unused fields in find_msvc. Use vswhere to find msvc. Update tests for LLVM 19
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// Copyright (c) 2023 Eduardo José Gómez Hernández. All rights reserved.
// Use of this source code is governed by the MIT license
// a copy of which can be found in the LICENSE_STDLIB file.
module std::atomic::types(<Type>);
struct Atomic
{
Type data;
}
/**
* Loads data atomically, by default this uses SEQ_CONSISTENT ordering.
*
* @param ordering "The ordering, cannot be release or acquire-release."
* @require ordering != RELEASE && ordering != ACQUIRE_RELEASE : "Release and acquire-release are not valid for load"
**/
macro Type Atomic.load(&self, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
switch(ordering)
{
case NOT_ATOMIC: return $$atomic_load(data, false, AtomicOrdering.NOT_ATOMIC.ordinal);
case UNORDERED: return $$atomic_load(data, false, AtomicOrdering.UNORDERED.ordinal);
case RELAXED: return $$atomic_load(data, false, AtomicOrdering.RELAXED.ordinal);
case ACQUIRE: return $$atomic_load(data, false, AtomicOrdering.ACQUIRE.ordinal);
case SEQ_CONSISTENT: return $$atomic_load(data, false, AtomicOrdering.SEQ_CONSISTENT.ordinal);
case ACQUIRE_RELEASE:
case RELEASE: unreachable("Invalid ordering.");
}
}
/**
* Stores data atomically, by default this uses SEQ_CONSISTENT ordering.
*
* @param ordering "The ordering, cannot be acquire or acquire-release."
* @require ordering != ACQUIRE && ordering != ACQUIRE_RELEASE : "Acquire and acquire-release are not valid for store"
**/
macro void Atomic.store(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
switch(ordering)
{
case NOT_ATOMIC: $$atomic_store(data, value, false, AtomicOrdering.NOT_ATOMIC.ordinal);
case UNORDERED: $$atomic_store(data, value, false, AtomicOrdering.UNORDERED.ordinal);
case RELAXED: $$atomic_store(data, value, false, AtomicOrdering.RELAXED.ordinal);
case RELEASE: $$atomic_store(data, value, false, AtomicOrdering.RELEASE.ordinal);
case SEQ_CONSISTENT: $$atomic_store(data, value, false, AtomicOrdering.SEQ_CONSISTENT.ordinal);
case ACQUIRE_RELEASE:
case ACQUIRE: unreachable("Invalid ordering.");
}
}
macro Type Atomic.add(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_add, data, value, ordering);
}
macro Type Atomic.sub(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_sub, data, value, ordering);
}
macro Type Atomic.mul(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_mul, data, value, ordering);
}
macro Type Atomic.div(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_div, data, value, ordering);
}
macro Type Atomic.max(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_div, data, value, ordering);
}
macro Type Atomic.min(&self, Type value, AtomicOrdering ordering = SEQ_CONSISTENT)
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_min, data, value, ordering);
}
macro Type Atomic.or(&self, uint value, AtomicOrdering ordering = SEQ_CONSISTENT) @if(!types::is_float(Type))
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_or, data, value, ordering);
}
fn Type Atomic.xor(&self, uint value, AtomicOrdering ordering = SEQ_CONSISTENT) @if(!types::is_float(Type))
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_xor, data, value, ordering);
}
macro Type Atomic.and(&self, uint value, AtomicOrdering ordering = SEQ_CONSISTENT) @if(!types::is_float(Type))
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_and, data, value, ordering);
}
macro Type Atomic.shift_right(&self, uint amount, AtomicOrdering ordering = SEQ_CONSISTENT) @if(!types::is_float(Type))
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_shift_right, data, amount, ordering);
}
macro Type Atomic.shift_left(&self, uint amount, AtomicOrdering ordering = SEQ_CONSISTENT) @if(!types::is_float(Type))
{
Type* data = &self.data;
return @atomic_exec(atomic::fetch_shift_left, data, amount, ordering);
}
macro @atomic_exec(#func, data, value, ordering) @local
{
switch(ordering)
{
case RELAXED: return #func(data, value, RELAXED);
case ACQUIRE: return #func(data, value, ACQUIRE);
case RELEASE: return #func(data, value, RELEASE);
case ACQUIRE_RELEASE: return #func(data, value, ACQUIRE_RELEASE);
case SEQ_CONSISTENT: return #func(data, value, SEQ_CONSISTENT);
default: unreachable("Ordering may not be non-atomic or unordered.");
}
}
module std::atomic;
import std::math;
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require !$alignment || math::is_power_of_2($alignment) "Alignment must be a power of two."
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_add(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if $alignment == 0:
$alignment = $typeof(*ptr).sizeof;
$endif
return $$atomic_fetch_add(ptr, y, $volatile, $ordering.ordinal, $alignment);
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require !$alignment || math::is_power_of_2($alignment) "Alignment must be a power of two."
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_sub(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if $alignment == 0:
$alignment = $typeof(*ptr).sizeof;
$endif
return $$atomic_fetch_sub(ptr, y, $volatile, $ordering.ordinal, $alignment);
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_mul(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = old_value * y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_div(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = old_value / y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require !$alignment || math::is_power_of_2($alignment) "Alignment must be a power of two."
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require types::is_int($typeof(y)) "The value for or must be an int"
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_or(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if types::is_int($typeof(*ptr)):
return $$atomic_fetch_or(ptr, y, $volatile, $ordering.ordinal, $alignment);
$endif
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
$StorageType storage_y = ($StorageType)y;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = storage_old_value | storage_y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require !$alignment || math::is_power_of_2($alignment) "Alignment must be a power of two."
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require types::is_int($typeof(y)) "The value for or must be an int"
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_xor(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if types::is_int($typeof(*ptr)):
return $$atomic_fetch_xor(ptr, y, $volatile, $ordering.ordinal, $alignment);
$endif
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
$StorageType storage_y = ($StorageType)y;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = storage_old_value ^ storage_y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require !$alignment || math::is_power_of_2($alignment) "Alignment must be a power of two."
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require types::is_int($typeof(y)) "The value for or must be an int"
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_and(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if types::is_int($typeof(*ptr)):
return $$atomic_fetch_and(ptr, y, $volatile, $ordering.ordinal, $alignment);
$endif
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
$StorageType storage_y = ($StorageType)y;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = storage_old_value & storage_y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require types::is_int($typeof(y)) "The value for or must be an int"
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_shift_right(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
$StorageType storage_y = ($StorageType)y;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = storage_old_value >> storage_y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require types::is_int($typeof(y)) "The value for or must be an int"
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_shift_left(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
var $load_ordering = $ordering;
$if $ordering == RELEASE || $ordering == ACQUIRE_RELEASE:
$load_ordering = AtomicOrdering.SEQ_CONSISTENT;
$endif
var $StorageType = $typefrom(types::lower_to_atomic_compatible_type($typeof(*ptr)));
$StorageType* storage_ptr = ($StorageType*)ptr;
$typeof(*ptr) old_value;
$typeof(*ptr) new_value;
$StorageType storage_old_value;
$StorageType storage_new_value;
$StorageType storage_y = ($StorageType)y;
do {
storage_old_value = $$atomic_load(storage_ptr, false, $load_ordering.ordinal);
old_value = bitcast(storage_old_value, $typeof(*ptr));
new_value = storage_old_value << storage_y;
storage_new_value = bitcast(new_value, $StorageType);
} while (mem::compare_exchange(storage_ptr, storage_old_value, storage_new_value, $ordering, $load_ordering) != storage_old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro flag_set(ptr, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
$typeof(*ptr) old_value;
$typeof(*ptr) new_value = true;
do {
old_value = $$atomic_load(ptr, false, $ordering.ordinal);
} while (mem::compare_exchange(ptr, old_value, new_value, $ordering, $load_ordering) != old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) "Only integer pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro flag_clear(ptr, AtomicOrdering $ordering = SEQ_CONSISTENT)
{
$typeof(*ptr) old_value;
$typeof(*ptr) new_value = false;
do {
old_value = $$atomic_load(ptr, false, $ordering.ordinal);
} while (mem::compare_exchange(ptr, old_value, new_value, $ordering, $load_ordering) != old_value);
return old_value;
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_max(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if $alignment == 0:
$alignment = $typeof(*ptr).sizeof;
$endif
return $$atomic_fetch_max(ptr, y, $volatile, $ordering.ordinal, $alignment);
}
/**
* @param [&in] ptr "the variable or dereferenced pointer to the data."
* @param [in] y "the value to be added to ptr."
* @param $ordering "atomic ordering of the load, defaults to SEQ_CONSISTENT"
* @return "returns the old value of ptr"
*
* @require types::is_int($typeof(*ptr)) || types::is_float($typeof(*ptr)) "Only integer/float pointers may be used."
* @require $ordering != AtomicOrdering.NOT_ATOMIC && $ordering != AtomicOrdering.UNORDERED "Acquire ordering is not valid."
**/
macro fetch_min(ptr, y, AtomicOrdering $ordering = SEQ_CONSISTENT, bool $volatile = false, usz $alignment = 0)
{
$if $alignment == 0:
$alignment = $typeof(*ptr).sizeof;
$endif
return $$atomic_fetch_min(ptr, y, $volatile, $ordering.ordinal, $alignment);
}
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