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/// Macros header
///
/// # Features
/// * `_EVAL_DEBUG_ONLY_STMTS` - Evaluate expressions passed to macros that are no-ops when not in debug mode.
#ifndef _MACROS_H
#define _MACROS_H
#ifdef __cplusplus
#define _Static_assert static_assert
extern "C" {
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdarg.h>
#include <assert.h>
#include "ifunc.h"
// Attribute macros
#define _pure __attribute__((const))
#define _readonly __attribute__((pure))
#define _cold __attribute__((cold))
#define _hot __attribute__((hot))
#define _dead __attribute__((unused))
#ifndef __cplusplus
#define noreturn __attribute__((noreturn))
#define _deprecated __attribute__((deprecated))
#define deprecated_message(str) __attribute__((deprecated(str)))
#define _deprecated_msg(str) deprecated_message(str)
#endif
#define noinline __attribute__((noinline))
#define always_inline __attribute__((always_inline))
#define force_inline __attribute__((gnu_inline))
#ifdef DEBUG
#define _mixin static inline force_inline
#else
#define _mixin extern inline force_inline
#endif
#define unrestrict __attribute__((may_alias))
#define _shared unrestrict
#ifdef __cplusplus
#define restrict __restrict__
#endif
// Function conventions
#define _cconv__mixin _mixin
#define _cconv__pure _pure
#define _cconv__readonly _readonly
#define _cconv__cold _cold
#define _cconv__dead _dead
#define _cconv__unused _dead
#define _cconv__hot _hot
#define _cconv__entry __attribute__((constructor))
#define _cconv__exit __attribute__((destructor))
// Allocates
#define _cconv__alloc __attribute__((malloc))
// Infallible alloc
#define _cconv__ialloc __attribute__((malloc)) __attribute__((returns_nonnull))
#define _cconv__nonnull __attribute__((returns_nonnull))
#define _callcv(name) _cconv__ ## name
#define _callconv(name) _callcv(name)
#define _callat_entry _callcv(entry)
#define _callat_exit _callcv(exit)
#define _callat(when) _callat_ ## when
// Argument attribute
// Used like: `int *pOUT output, const int *pIN input`
#define pOUT restrict
#define pIN const restrict
#define pINOUT restrict
// Used like: `int _OUT output, const int _IN input`
#define _IN *pIN
#define _OUT *pOUT
#define _INOUT *pINOUT
// Type macros
#define AS(x, t) ((t)(x))
#ifdef __cplusplus
#define let auto
#define var(x) decltype(x)
#else
#define let __auto_type
#define var(x) __typeof((x))
#endif
// Control flow macros
#define LIKELY(x) __builtin_expect(!!(x), 1)
#define UNLIKELY(x) __builtin_expect(!!(x), 0)
#define ifL(x) if(LIKELY((x)))
#define ifU(x) if(UNLIKELY((x)))
#define COLD_EXPR(expr) ({ \
goto _cold_expr; \
UNREACHABLE_UNSAFE(); \
_cold_expr: \
__attribute__((cold)); \
expr; \
})
#define HOT_EXPR(expr) ({ \
goto _hot_expr; \
UNREACHABLE_UNSAFE(); \
_hot_expr: \
__attribute__((hot)); \
expr; \
})
// Use like: COLD_BLOCK { ... }
// XXX: I'm not exactly sure if these hacks work.. Should test.
#define COLD_BLOCK if(UNLIKELY(1))
// Use like: HOT_BLOCK { ... }
#define HOT_BLOCK if(LIKELY(1))
/// Equivalent to GNU C `x ?: y` operator.
#define TERN_OR(x, y) ({ let _x = (x); _x ? _x : (y); })
// Statement macros
#define _NO_OP ((void)0)
#define IGNORE(x) ((void)(x))
_mixin void _drain_val(void* x, ...) { IGNORE(x); } // This compiles to no-op on -O0 and -O2+ due to `gnu_inline` (_mixin)
#define _drain(...) _drain_val(NULL, __VA_ARGS__)
#define IGNORE_ALL(...) _drain(__VA_ARGS__)
// Allocation macros
#define box(t) ((t*)aligned_alloc(_Alignof(t), sizeof(t)))
#define box_value(v) ({ let _box = box(var(v)); *_box = (v); _box; })
#define unbox_value(v) ({ let _v = (v); let _res = *_v; free(_v); _res; })
#define stackalloc(t) __builtin_alloca_with_align(sizeof(t), _Alignof(t))
// Function macros
// debug-only statements
#ifdef DEBUG
#define DBG(x) x
#else
#define DBG(x) ((void)0)
#endif
// Assertions
#define assert_msg(expr, ...) ( (expr) ? 1 : FATAL(__VA_ARGS__))
#define UNREACHABLE_UNSAFE() __builtin_unreachable()
#ifdef DEBUG
#define UNREACHABLE() do { COLD_EXPR(FATAL("unreachable code entered")); } while(0)
#else
#define UNREACHABLE() UNREACHABLE_UNSAFE()
#endif
#ifdef DEBUG
#define debug_assert(x) assert((x))
#elif defined(_EVAL_DEBUG_ONLY_STMTS)
#define debug_assert(x) IGNORE(x)
#else
#define debug_assert(x) _NO_OP
#endif
#define assert_eq(x,y) assert((x) == (y))
#define assert_ne(x,y) assert((x) != (y))
#define debug_assert_eq(x,y) debug_assert((x) == (y))
#define debug_assert_ne(x,y) debug_assert((x) != (y))
#ifdef DEBUG
#define debug_static_assert(x, msg) _Static_assert((x), msg)
#else
#define debug_static_assert(x, msg) _Static_assert(1, msg)
#endif
#define static_assert_eq(x,y,msg) _Static_assert((x) == (y), msg)
#define static_assert_ne(x,y,msg) _Static_assert((x) != (y), msg)
// Bitmasking
#define _BSWAP(x) __builtin_bswa x
#define BSWAP_16(x) _BSWAP(p16) (AS((x), uint16_t))
#define BSWAP_32(x) _BSWAP(p32) (AS((x), uint32_t))
#define BSWAP_64(x) _BSWAP(p64) (AS((x), uint64_t))
#define BSWAP_128(x) _BSWAP(p128)(AS((x), uint128_t))
#undef _BSWAP
#define _BSWAP(n) __builtin_bswap ## n
#define bswap(x) _Generic((x), \
uint64_t: _BSWAP(64), int64_t: _BSWAP(64), \
uint32_t: _BSWAP(32), int32_t: _BSWAP(32), \
uint16_t: _BSWAP(16), int16_t: _BSWAP(16), \
__uint128_t: _BSWAP(128), __int128_t: _BSWAP(128)) \
((x))
static_assert_eq(bswap(128lu), 9223372036854775808lu, "bswap128 (lu) failed (1)");
static_assert_eq(128lu, bswap(9223372036854775808lu), "bswap128 (lu) failed (2)");
static_assert_eq(bswap(bswap(128lu)), 128, "bswap128 (lu) failed (3)");
// Transmute
#define TRANSMUTE(val, type) ({ union _trans { var(val) input; type output; }; \
_Static_assert(sizeof(var(val)) == sizeof(type), "Cannot transmute values of different sizes"); \
_Static_assert(sizeof(union _trans) == sizeof(type), "Cannot transmute values of different sizes"); \
/* XXX: Do we need do check this for equality? Can we re-word it or do we even need it at all? _Static_assert(_Alignof(union _trans) == _Alignof(type), "Cannot transmute values of different alignments");*/ \
union _trans _trans__value = { .input = (val), }; \
_trans__value.output; })
// Trace message output
#include "trace.h"
#define TRACEx(L, X, msg, ...) (_t_fprintf(TRACE_LEVEL_ ## L, stderr, "[" X "] " __FILE__ ":%d->%s(): " msg "\n", __LINE__, __func__, ## __VA_ARGS__))
#ifdef DEBUG
#define dprintf(msg, ...) TRACEx(DEBUG, "debug", msg, ## __VA_ARGS__)
#elif defined(_EVAL_DEBUG_ONLY_STMTS)
#define dprintf(msg, ...) _drain(msg, ## __VA_ARGS__)
#endif
#define TRACE(msg, ...) TRACEx(DEBUG, "trace", msg, ## __VA_ARGS__)
#define INFO(msg, ...) TRACEx(INFO, "info", msg, ## __VA_ARGS__)
#define WARN(msg, ...) TRACEx(WARN, "warning", msg, ## __VA_ARGS__)
#define ERROR(msg, ...) TRACEx(ERROR, "error", msg, ## __VA_ARGS__)
#define FATAL(msg, ...) (TRACEx(FATAL, "FATAL", msg, ## __VA_ARGS__), abort())
#define TODO(x, ...) FATAL("function %s() is unimplemented: " x, __func__, ## __VA_ARGS__)
// Debug testing
#define PASSERT_OR(expr, err, message) do { if ((expr)) break; perror("[FATAL] `" #expr "`: " message); ({ err; }) } while(0)
#define PASSERT(expr, message) do { if ((expr)) break; perror("[FATAL] `" #expr "`: " message); exit(-1); } while(0)
#define PASSERT_R(expr, rv, message) PASSERT_OR(expr, return (rv), message)
#define TEST_OK 1
#define TEST_FAILED 0
#define TESTFUN(name) _test__ ## name
#define CALLTEST(name) (assert_msg(TESTFUN(name)() == TEST_OK, "Test `" #name "` failed"), TRACE("Test `" #name "` passed!"))
#define DEFTEST(name) int _test__ ## name(void)
#define TEST_ASSERT(x) do { if (!(x)) {ERROR("Test `%s' assertion failure: `" #x "`", __func__ + 7); return TEST_FAILED;} } while(0)
#define TEST_ASSERT_EQ(x,y) TEST_ASSERT( (x) == (y) )
#define TEST_ASSERT_NE(x,y) TEST_ASSERT( (x) != (y) )
// Version macros
#define _AS_u32(x) ((uint32_t)(x))
#define VER_COMP_MAJ 24u
#define VER_COMP_MIN 16u
#define VER_COMP_BF 8u
#define VER_COMP_REV 0u
/// Create a `uint32_t` from these version componants
#define VERSION(maj,min,bf,rev) _AS_u32( _AS_u32(maj) << 24u | _AS_u32(min) << 16u | _AS_u32(bf) << 8u | _AS_u32(rev) )
/// Mask `ver` to retain only the version component specified by `mask`
///
/// # Example
/// `_Static_assert( (VERSION_COMP(VERSION(1,2,3,4), VER_COMP_MIN) >> VER_COMP_MIN) == 2u)`
#define VERSION_COMP(ver, mask) _AS_u32( _AS_u32(ver) & (0xffu << _AS_u32(mask)) /*>> _AS_u32(mask)*/ )
#define VERSION_MAJ(ver) _AS_u32(VERSION_COMP((ver), 24u) >> 24u)
#define VERSION_MIN(ver) _AS_u32(VERSION_COMP((ver), 16u) >> 16u)
#define VERSION_BF(ver) _AS_u32(VERSION_COMP((ver), 8u) >> 8u)
#define VERSION_REV(ver) _AS_u32(_AS_u32(ver) & 0xffu)
_Static_assert( (VERSION_COMP(VERSION(1,2,3,4), VER_COMP_MIN) >> VER_COMP_MIN) == 2u, "invalid native version spec");
// Misc.
#define PTR_ASSIGN(ptr, val) ( (ptr) ? (*(ptr) = (val), (ptr)) : (ptr) )
#define PTR_ASSIGNv(ptr, val) ({ let _ptr = (ptr); let _val = (val); PTR_ASSIGN(_ptr, _val); })
#ifdef __cplusplus
#undef _Static_assert
}
#endif
#endif /* _MACROS_H */