/* SPDX-License-Identifier: GPL-2.0-only */ /* Copyright (c) 2026 Meta Platforms, Inc. and affiliates. */ #ifndef _LINUX_CNUM_H #define _LINUX_CNUM_H #include /* * cnum32: a circular number. * A unified representation for signed and unsigned ranges. * * Assume that a 32-bit range is a circle, with 0 being in the 12 o'clock * position, numbers placed sequentially in clockwise order and U32_MAX * in the 11 o'clock position. Signed values map onto the same circle: * S32_MAX sits at 5 o'clock, S32_MIN sits at 6 o'clock (opposite 0), * negative values occupy the left half and positive values the right half. * * @cnum32 represents an arc on this circle drawn clockwise. * @base corresponds to the first value of the range. * @size corresponds to the number of integers in the range excluding @base. * (The @base is excluded to avoid integer overflow when representing the full * 0..U32_MAX range, which corresponds to 2^32, which can't be stored in u32). * * For example: {U32_MAX, 1} corresponds to signed range [-1, 0], * {S32_MAX, 1} corresponds to unsigned range [S32_MAX, S32_MIN]. */ struct cnum32 { u32 base; u32 size; }; #define CNUM32_UNBOUNDED ((struct cnum32){ .base = 0, .size = U32_MAX }) #define CNUM32_EMPTY ((struct cnum32){ .base = U32_MAX, .size = U32_MAX }) struct cnum32 cnum32_from_urange(u32 min, u32 max); struct cnum32 cnum32_from_srange(s32 min, s32 max); u32 cnum32_umin(struct cnum32 cnum); u32 cnum32_umax(struct cnum32 cnum); s32 cnum32_smin(struct cnum32 cnum); s32 cnum32_smax(struct cnum32 cnum); struct cnum32 cnum32_intersect(struct cnum32 a, struct cnum32 b); void cnum32_intersect_with(struct cnum32 *dst, struct cnum32 src); void cnum32_intersect_with_urange(struct cnum32 *dst, u32 min, u32 max); void cnum32_intersect_with_srange(struct cnum32 *dst, s32 min, s32 max); bool cnum32_contains(struct cnum32 cnum, u32 v); bool cnum32_is_const(struct cnum32 cnum); bool cnum32_is_empty(struct cnum32 cnum); struct cnum32 cnum32_add(struct cnum32 a, struct cnum32 b); struct cnum32 cnum32_negate(struct cnum32 a); bool cnum32_is_subset(struct cnum32 outer, struct cnum32 inner); /* Same as cnum32 but for 64-bit ranges */ struct cnum64 { u64 base; u64 size; }; #define CNUM64_UNBOUNDED ((struct cnum64){ .base = 0, .size = U64_MAX }) #define CNUM64_EMPTY ((struct cnum64){ .base = U64_MAX, .size = U64_MAX }) struct cnum64 cnum64_from_urange(u64 min, u64 max); struct cnum64 cnum64_from_srange(s64 min, s64 max); u64 cnum64_umin(struct cnum64 cnum); u64 cnum64_umax(struct cnum64 cnum); s64 cnum64_smin(struct cnum64 cnum); s64 cnum64_smax(struct cnum64 cnum); struct cnum64 cnum64_intersect(struct cnum64 a, struct cnum64 b); void cnum64_intersect_with(struct cnum64 *dst, struct cnum64 src); void cnum64_intersect_with_urange(struct cnum64 *dst, u64 min, u64 max); void cnum64_intersect_with_srange(struct cnum64 *dst, s64 min, s64 max); bool cnum64_contains(struct cnum64 cnum, u64 v); bool cnum64_is_const(struct cnum64 cnum); bool cnum64_is_empty(struct cnum64 cnum); struct cnum64 cnum64_add(struct cnum64 a, struct cnum64 b); struct cnum64 cnum64_negate(struct cnum64 a); bool cnum64_is_subset(struct cnum64 outer, struct cnum64 inner); struct cnum32 cnum32_from_cnum64(struct cnum64 cnum); struct cnum64 cnum64_cnum32_intersect(struct cnum64 a, struct cnum32 b); #endif /* _LINUX_CNUM_H */