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This will be done via a const sparsebit*. To avoid warnings or the need to add casts everywhere, add const to the various sparsebit functions that are applicable for read-only usage of sparsebit. Signed-off-by: Michael Roth Signed-off-by: Peter Gonda --- .../testing/selftests/kvm/include/sparsebit.h | 36 +++++++------- tools/testing/selftests/kvm/lib/sparsebit.c | 48 +++++++++---------- 2 files changed, 42 insertions(+), 42 deletions(-) diff --git a/tools/testing/selftests/kvm/include/sparsebit.h b/tools/testing/selftests/kvm/include/sparsebit.h index 12a9a4b9cead..fb5170d57fcb 100644 --- a/tools/testing/selftests/kvm/include/sparsebit.h +++ b/tools/testing/selftests/kvm/include/sparsebit.h @@ -30,26 +30,26 @@ typedef uint64_t sparsebit_num_t; struct sparsebit *sparsebit_alloc(void); void sparsebit_free(struct sparsebit **sbitp); -void sparsebit_copy(struct sparsebit *dstp, struct sparsebit *src); +void sparsebit_copy(struct sparsebit *dstp, const struct sparsebit *src); -bool sparsebit_is_set(struct sparsebit *sbit, sparsebit_idx_t idx); -bool sparsebit_is_set_num(struct sparsebit *sbit, +bool sparsebit_is_set(const struct sparsebit *sbit, sparsebit_idx_t idx); +bool sparsebit_is_set_num(const struct sparsebit *sbit, sparsebit_idx_t idx, sparsebit_num_t num); -bool sparsebit_is_clear(struct sparsebit *sbit, sparsebit_idx_t idx); -bool sparsebit_is_clear_num(struct sparsebit *sbit, +bool sparsebit_is_clear(const struct sparsebit *sbit, sparsebit_idx_t idx); +bool sparsebit_is_clear_num(const struct sparsebit *sbit, sparsebit_idx_t idx, sparsebit_num_t num); -sparsebit_num_t sparsebit_num_set(struct sparsebit *sbit); -bool sparsebit_any_set(struct sparsebit *sbit); -bool sparsebit_any_clear(struct sparsebit *sbit); -bool sparsebit_all_set(struct sparsebit *sbit); -bool sparsebit_all_clear(struct sparsebit *sbit); -sparsebit_idx_t sparsebit_first_set(struct sparsebit *sbit); -sparsebit_idx_t sparsebit_first_clear(struct sparsebit *sbit); -sparsebit_idx_t sparsebit_next_set(struct sparsebit *sbit, sparsebit_idx_t prev); -sparsebit_idx_t sparsebit_next_clear(struct sparsebit *sbit, sparsebit_idx_t prev); -sparsebit_idx_t sparsebit_next_set_num(struct sparsebit *sbit, +sparsebit_num_t sparsebit_num_set(const struct sparsebit *sbit); +bool sparsebit_any_set(const struct sparsebit *sbit); +bool sparsebit_any_clear(const struct sparsebit *sbit); +bool sparsebit_all_set(const struct sparsebit *sbit); +bool sparsebit_all_clear(const struct sparsebit *sbit); +sparsebit_idx_t sparsebit_first_set(const struct sparsebit *sbit); +sparsebit_idx_t sparsebit_first_clear(const struct sparsebit *sbit); +sparsebit_idx_t sparsebit_next_set(const struct sparsebit *sbit, sparsebit_idx_t prev); +sparsebit_idx_t sparsebit_next_clear(const struct sparsebit *sbit, sparsebit_idx_t prev); +sparsebit_idx_t sparsebit_next_set_num(const struct sparsebit *sbit, sparsebit_idx_t start, sparsebit_num_t num); -sparsebit_idx_t sparsebit_next_clear_num(struct sparsebit *sbit, +sparsebit_idx_t sparsebit_next_clear_num(const struct sparsebit *sbit, sparsebit_idx_t start, sparsebit_num_t num); void sparsebit_set(struct sparsebit *sbitp, sparsebit_idx_t idx); @@ -62,9 +62,9 @@ void sparsebit_clear_num(struct sparsebit *sbitp, sparsebit_idx_t start, sparsebit_num_t num); void sparsebit_clear_all(struct sparsebit *sbitp); -void sparsebit_dump(FILE *stream, struct sparsebit *sbit, +void sparsebit_dump(FILE *stream, const struct sparsebit *sbit, unsigned int indent); -void sparsebit_validate_internal(struct sparsebit *sbit); +void sparsebit_validate_internal(const struct sparsebit *sbit); #ifdef __cplusplus } diff --git a/tools/testing/selftests/kvm/lib/sparsebit.c b/tools/testing/selftests/kvm/lib/sparsebit.c index 50e0cf41a7dd..6777a5b1fbd2 100644 --- a/tools/testing/selftests/kvm/lib/sparsebit.c +++ b/tools/testing/selftests/kvm/lib/sparsebit.c @@ -202,7 +202,7 @@ static sparsebit_num_t node_num_set(struct node *nodep) /* Returns a pointer to the node that describes the * lowest bit index. */ -static struct node *node_first(struct sparsebit *s) +static struct node *node_first(const struct sparsebit *s) { struct node *nodep; @@ -216,7 +216,7 @@ static struct node *node_first(struct sparsebit *s) * lowest bit index > the index of the node pointed to by np. * Returns NULL if no node with a higher index exists. */ -static struct node *node_next(struct sparsebit *s, struct node *np) +static struct node *node_next(const struct sparsebit *s, struct node *np) { struct node *nodep = np; @@ -244,7 +244,7 @@ static struct node *node_next(struct sparsebit *s, struct node *np) * highest index < the index of the node pointed to by np. * Returns NULL if no node with a lower index exists. */ -static struct node *node_prev(struct sparsebit *s, struct node *np) +static struct node *node_prev(const struct sparsebit *s, struct node *np) { struct node *nodep = np; @@ -273,7 +273,7 @@ static struct node *node_prev(struct sparsebit *s, struct node *np) * subtree and duplicates the bit settings to the newly allocated nodes. * Returns the newly allocated copy of subtree. */ -static struct node *node_copy_subtree(struct node *subtree) +static struct node *node_copy_subtree(const struct node *subtree) { struct node *root; @@ -307,7 +307,7 @@ static struct node *node_copy_subtree(struct node *subtree) * index is within the bits described by the mask bits or the number of * contiguous bits set after the mask. Returns NULL if there is no such node. */ -static struct node *node_find(struct sparsebit *s, sparsebit_idx_t idx) +static struct node *node_find(const struct sparsebit *s, sparsebit_idx_t idx) { struct node *nodep; @@ -393,7 +393,7 @@ static struct node *node_add(struct sparsebit *s, sparsebit_idx_t idx) } /* Returns whether all the bits in the sparsebit array are set. */ -bool sparsebit_all_set(struct sparsebit *s) +bool sparsebit_all_set(const struct sparsebit *s) { /* * If any nodes there must be at least one bit set. Only case @@ -776,7 +776,7 @@ static void node_reduce(struct sparsebit *s, struct node *nodep) /* Returns whether the bit at the index given by idx, within the * sparsebit array is set or not. */ -bool sparsebit_is_set(struct sparsebit *s, sparsebit_idx_t idx) +bool sparsebit_is_set(const struct sparsebit *s, sparsebit_idx_t idx) { struct node *nodep; @@ -922,7 +922,7 @@ static inline sparsebit_idx_t node_first_clear(struct node *nodep, int start) * used by test cases after they detect an unexpected condition, as a means * to capture diagnostic information. */ -static void sparsebit_dump_internal(FILE *stream, struct sparsebit *s, +static void sparsebit_dump_internal(FILE *stream, const struct sparsebit *s, unsigned int indent) { /* Dump the contents of s */ @@ -970,7 +970,7 @@ void sparsebit_free(struct sparsebit **sbitp) * sparsebit_alloc(). It can though already have bits set, which * if different from src will be cleared. */ -void sparsebit_copy(struct sparsebit *d, struct sparsebit *s) +void sparsebit_copy(struct sparsebit *d, const struct sparsebit *s) { /* First clear any bits already set in the destination */ sparsebit_clear_all(d); @@ -982,7 +982,7 @@ void sparsebit_copy(struct sparsebit *d, struct sparsebit *s) } /* Returns whether num consecutive bits starting at idx are all set. */ -bool sparsebit_is_set_num(struct sparsebit *s, +bool sparsebit_is_set_num(const struct sparsebit *s, sparsebit_idx_t idx, sparsebit_num_t num) { sparsebit_idx_t next_cleared; @@ -1006,14 +1006,14 @@ bool sparsebit_is_set_num(struct sparsebit *s, } /* Returns whether the bit at the index given by idx. */ -bool sparsebit_is_clear(struct sparsebit *s, +bool sparsebit_is_clear(const struct sparsebit *s, sparsebit_idx_t idx) { return !sparsebit_is_set(s, idx); } /* Returns whether num consecutive bits starting at idx are all cleared. */ -bool sparsebit_is_clear_num(struct sparsebit *s, +bool sparsebit_is_clear_num(const struct sparsebit *s, sparsebit_idx_t idx, sparsebit_num_t num) { sparsebit_idx_t next_set; @@ -1042,13 +1042,13 @@ bool sparsebit_is_clear_num(struct sparsebit *s, * value. Use sparsebit_any_set(), instead of sparsebit_num_set() > 0, * to determine if the sparsebit array has any bits set. */ -sparsebit_num_t sparsebit_num_set(struct sparsebit *s) +sparsebit_num_t sparsebit_num_set(const struct sparsebit *s) { return s->num_set; } /* Returns whether any bit is set in the sparsebit array. */ -bool sparsebit_any_set(struct sparsebit *s) +bool sparsebit_any_set(const struct sparsebit *s) { /* * Nodes only describe set bits. If any nodes then there @@ -1071,20 +1071,20 @@ bool sparsebit_any_set(struct sparsebit *s) } /* Returns whether all the bits in the sparsebit array are cleared. */ -bool sparsebit_all_clear(struct sparsebit *s) +bool sparsebit_all_clear(const struct sparsebit *s) { return !sparsebit_any_set(s); } /* Returns whether all the bits in the sparsebit array are set. */ -bool sparsebit_any_clear(struct sparsebit *s) +bool sparsebit_any_clear(const struct sparsebit *s) { return !sparsebit_all_set(s); } /* Returns the index of the first set bit. Abort if no bits are set. */ -sparsebit_idx_t sparsebit_first_set(struct sparsebit *s) +sparsebit_idx_t sparsebit_first_set(const struct sparsebit *s) { struct node *nodep; @@ -1098,7 +1098,7 @@ sparsebit_idx_t sparsebit_first_set(struct sparsebit *s) /* Returns the index of the first cleared bit. Abort if * no bits are cleared. */ -sparsebit_idx_t sparsebit_first_clear(struct sparsebit *s) +sparsebit_idx_t sparsebit_first_clear(const struct sparsebit *s) { struct node *nodep1, *nodep2; @@ -1152,7 +1152,7 @@ sparsebit_idx_t sparsebit_first_clear(struct sparsebit *s) /* Returns index of next bit set within s after the index given by prev. * Returns 0 if there are no bits after prev that are set. */ -sparsebit_idx_t sparsebit_next_set(struct sparsebit *s, +sparsebit_idx_t sparsebit_next_set(const struct sparsebit *s, sparsebit_idx_t prev) { sparsebit_idx_t lowest_possible = prev + 1; @@ -1245,7 +1245,7 @@ sparsebit_idx_t sparsebit_next_set(struct sparsebit *s, /* Returns index of next bit cleared within s after the index given by prev. * Returns 0 if there are no bits after prev that are cleared. */ -sparsebit_idx_t sparsebit_next_clear(struct sparsebit *s, +sparsebit_idx_t sparsebit_next_clear(const struct sparsebit *s, sparsebit_idx_t prev) { sparsebit_idx_t lowest_possible = prev + 1; @@ -1301,7 +1301,7 @@ sparsebit_idx_t sparsebit_next_clear(struct sparsebit *s, * and returns the index of the first sequence of num consecutively set * bits. Returns a value of 0 of no such sequence exists. */ -sparsebit_idx_t sparsebit_next_set_num(struct sparsebit *s, +sparsebit_idx_t sparsebit_next_set_num(const struct sparsebit *s, sparsebit_idx_t start, sparsebit_num_t num) { sparsebit_idx_t idx; @@ -1336,7 +1336,7 @@ sparsebit_idx_t sparsebit_next_set_num(struct sparsebit *s, * and returns the index of the first sequence of num consecutively cleared * bits. Returns a value of 0 of no such sequence exists. */ -sparsebit_idx_t sparsebit_next_clear_num(struct sparsebit *s, +sparsebit_idx_t sparsebit_next_clear_num(const struct sparsebit *s, sparsebit_idx_t start, sparsebit_num_t num) { sparsebit_idx_t idx; @@ -1584,7 +1584,7 @@ static size_t display_range(FILE *stream, sparsebit_idx_t low, * contiguous bits. This is done because '-' is used to specify command-line * options, and sometimes ranges are specified as command-line arguments. */ -void sparsebit_dump(FILE *stream, struct sparsebit *s, +void sparsebit_dump(FILE *stream, const struct sparsebit *s, unsigned int indent) { size_t current_line_len = 0; @@ -1682,7 +1682,7 @@ void sparsebit_dump(FILE *stream, struct sparsebit *s, * s. On error, diagnostic information is printed to stderr and * abort is called. */ -void sparsebit_validate_internal(struct sparsebit *s) +void sparsebit_validate_internal(const struct sparsebit *s) { bool error_detected = false; struct node *nodep, *prev = NULL; -- 2.37.1.455.g008518b4e5-goog