/****************************************************** Index page routines (c) 1994-1996 Innobase Oy Created 2/2/1994 Heikki Tuuri *******************************************************/ #include "mach0data.h" #include "rem0cmp.h" #include "mtr0log.h" #include "page0zip.h" #ifdef UNIV_MATERIALIZE #undef UNIV_INLINE #define UNIV_INLINE #endif /**************************************************************** Gets the start of a page. */ UNIV_INLINE page_t* page_align( /*=======*/ /* out: start of the page */ const void* ptr) /* in: pointer to page frame */ { return((page_t*) ut_align_down(ptr, UNIV_PAGE_SIZE)); } /**************************************************************** Gets the offset within a page. */ UNIV_INLINE ulint page_offset( /*========*/ /* out: offset from the start of the page */ const void* ptr) /* in: pointer to page frame */ { return(ut_align_offset(ptr, UNIV_PAGE_SIZE)); } /***************************************************************** Returns the max trx id field value. */ UNIV_INLINE dulint page_get_max_trx_id( /*================*/ const page_t* page) /* in: page */ { ut_ad(page); return(mach_read_from_8(page + PAGE_HEADER + PAGE_MAX_TRX_ID)); } /***************************************************************** Sets the max trx id field value if trx_id is bigger than the previous value. */ UNIV_INLINE void page_update_max_trx_id( /*===================*/ buf_block_t* block, /* in/out: page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL */ dulint trx_id) /* in: transaction id */ { ut_ad(block); if (ut_dulint_cmp(page_get_max_trx_id(buf_block_get_frame(block)), trx_id) < 0) { page_set_max_trx_id(block, page_zip, trx_id); } } /***************************************************************** Reads the given header field. */ UNIV_INLINE ulint page_header_get_field( /*==================*/ const page_t* page, /* in: page */ ulint field) /* in: PAGE_LEVEL, ... */ { ut_ad(page); ut_ad(field <= PAGE_INDEX_ID); return(mach_read_from_2(page + PAGE_HEADER + field)); } /***************************************************************** Sets the given header field. */ UNIV_INLINE void page_header_set_field( /*==================*/ page_t* page, /* in/out: page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL */ ulint field, /* in: PAGE_N_DIR_SLOTS, ... */ ulint val) /* in: value */ { ut_ad(page); ut_ad(field <= PAGE_N_RECS); ut_ad(field == PAGE_N_HEAP || val < UNIV_PAGE_SIZE); ut_ad(field != PAGE_N_HEAP || (val & 0x7fff) < UNIV_PAGE_SIZE); mach_write_to_2(page + PAGE_HEADER + field, val); if (UNIV_LIKELY_NULL(page_zip)) { page_zip_write_header(page_zip, page + PAGE_HEADER + field, 2, NULL); } } /***************************************************************** Returns the offset stored in the given header field. */ UNIV_INLINE ulint page_header_get_offs( /*=================*/ /* out: offset from the start of the page, or 0 */ const page_t* page, /* in: page */ ulint field) /* in: PAGE_FREE, ... */ { ulint offs; ut_ad(page); ut_ad((field == PAGE_FREE) || (field == PAGE_LAST_INSERT) || (field == PAGE_HEAP_TOP)); offs = page_header_get_field(page, field); ut_ad((field != PAGE_HEAP_TOP) || offs); return(offs); } /***************************************************************** Sets the pointer stored in the given header field. */ UNIV_INLINE void page_header_set_ptr( /*================*/ page_t* page, /* in: page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL */ ulint field, /* in: PAGE_FREE, ... */ const byte* ptr) /* in: pointer or NULL*/ { ulint offs; ut_ad(page); ut_ad((field == PAGE_FREE) || (field == PAGE_LAST_INSERT) || (field == PAGE_HEAP_TOP)); if (ptr == NULL) { offs = 0; } else { offs = ptr - page; } ut_ad((field != PAGE_HEAP_TOP) || offs); page_header_set_field(page, page_zip, field, offs); } /***************************************************************** Resets the last insert info field in the page header. Writes to mlog about this operation. */ UNIV_INLINE void page_header_reset_last_insert( /*==========================*/ page_t* page, /* in/out: page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL */ mtr_t* mtr) /* in: mtr */ { ut_ad(page && mtr); if (UNIV_LIKELY_NULL(page_zip)) { mach_write_to_2(page + (PAGE_HEADER + PAGE_LAST_INSERT), 0); page_zip_write_header(page_zip, page + (PAGE_HEADER + PAGE_LAST_INSERT), 2, mtr); } else { mlog_write_ulint(page + (PAGE_HEADER + PAGE_LAST_INSERT), 0, MLOG_2BYTES, mtr); } } /**************************************************************** Determine whether the page is in new-style compact format. */ UNIV_INLINE ulint page_is_comp( /*=========*/ /* out: nonzero if the page is in compact format, zero if it is in old-style format */ const page_t* page) /* in: index page */ { return(UNIV_EXPECT(page_header_get_field(page, PAGE_N_HEAP) & 0x8000, 0x8000)); } /**************************************************************** TRUE if the record is on a page in compact format. */ UNIV_INLINE ulint page_rec_is_comp( /*=============*/ /* out: nonzero if in compact format */ const rec_t* rec) /* in: record */ { return(page_is_comp(page_align(rec))); } /******************************************************************* Returns the heap number of a record. */ UNIV_INLINE ulint page_rec_get_heap_no( /*=================*/ /* out: heap number */ const rec_t* rec) /* in: the physical record */ { if (page_rec_is_comp(rec)) { return(rec_get_heap_no_new(rec)); } else { return(rec_get_heap_no_old(rec)); } } /**************************************************************** Determine whether the page is a B-tree leaf. */ UNIV_INLINE ibool page_is_leaf( /*=========*/ /* out: TRUE if the page is a B-tree leaf */ const page_t* page) /* in: page */ { return(!*(const uint16*) (page + (PAGE_HEADER + PAGE_LEVEL))); } /**************************************************************** Gets the first record on the page. */ UNIV_INLINE rec_t* page_get_infimum_rec( /*=================*/ /* out: the first record in record list */ page_t* page) /* in: page which must have record(s) */ { ut_ad(page); if (page_is_comp(page)) { return(page + PAGE_NEW_INFIMUM); } else { return(page + PAGE_OLD_INFIMUM); } } /**************************************************************** Gets the last record on the page. */ UNIV_INLINE rec_t* page_get_supremum_rec( /*==================*/ /* out: the last record in record list */ page_t* page) /* in: page which must have record(s) */ { ut_ad(page); if (page_is_comp(page)) { return(page + PAGE_NEW_SUPREMUM); } else { return(page + PAGE_OLD_SUPREMUM); } } /**************************************************************** TRUE if the record is a user record on the page. */ UNIV_INLINE ibool page_rec_is_user_rec_low( /*=====================*/ /* out: TRUE if a user record */ ulint offset) /* in: record offset on page */ { ut_ad(offset >= PAGE_NEW_INFIMUM); #if PAGE_OLD_INFIMUM < PAGE_NEW_INFIMUM # error "PAGE_OLD_INFIMUM < PAGE_NEW_INFIMUM" #endif #if PAGE_OLD_SUPREMUM < PAGE_NEW_SUPREMUM # error "PAGE_OLD_SUPREMUM < PAGE_NEW_SUPREMUM" #endif #if PAGE_NEW_INFIMUM > PAGE_OLD_SUPREMUM # error "PAGE_NEW_INFIMUM > PAGE_OLD_SUPREMUM" #endif #if PAGE_OLD_INFIMUM > PAGE_NEW_SUPREMUM # error "PAGE_OLD_INFIMUM > PAGE_NEW_SUPREMUM" #endif #if PAGE_NEW_SUPREMUM > PAGE_OLD_SUPREMUM_END # error "PAGE_NEW_SUPREMUM > PAGE_OLD_SUPREMUM_END" #endif #if PAGE_OLD_SUPREMUM > PAGE_NEW_SUPREMUM_END # error "PAGE_OLD_SUPREMUM > PAGE_NEW_SUPREMUM_END" #endif ut_ad(offset <= UNIV_PAGE_SIZE - PAGE_EMPTY_DIR_START); return(UNIV_LIKELY(offset != PAGE_NEW_SUPREMUM) && UNIV_LIKELY(offset != PAGE_NEW_INFIMUM) && UNIV_LIKELY(offset != PAGE_OLD_INFIMUM) && UNIV_LIKELY(offset != PAGE_OLD_SUPREMUM)); } /**************************************************************** TRUE if the record is the supremum record on a page. */ UNIV_INLINE ibool page_rec_is_supremum_low( /*=====================*/ /* out: TRUE if the supremum record */ ulint offset) /* in: record offset on page */ { ut_ad(offset >= PAGE_NEW_INFIMUM); ut_ad(offset <= UNIV_PAGE_SIZE - PAGE_EMPTY_DIR_START); return(UNIV_UNLIKELY(offset == PAGE_NEW_SUPREMUM) || UNIV_UNLIKELY(offset == PAGE_OLD_SUPREMUM)); } /**************************************************************** TRUE if the record is the infimum record on a page. */ UNIV_INLINE ibool page_rec_is_infimum_low( /*====================*/ /* out: TRUE if the infimum record */ ulint offset) /* in: record offset on page */ { ut_ad(offset >= PAGE_NEW_INFIMUM); ut_ad(offset <= UNIV_PAGE_SIZE - PAGE_EMPTY_DIR_START); return(UNIV_UNLIKELY(offset == PAGE_NEW_INFIMUM) || UNIV_UNLIKELY(offset == PAGE_OLD_INFIMUM)); } /**************************************************************** TRUE if the record is a user record on the page. */ UNIV_INLINE ibool page_rec_is_user_rec( /*=================*/ /* out: TRUE if a user record */ const rec_t* rec) /* in: record */ { return(page_rec_is_user_rec_low(page_offset(rec))); } /**************************************************************** TRUE if the record is the supremum record on a page. */ UNIV_INLINE ibool page_rec_is_supremum( /*=================*/ /* out: TRUE if the supremum record */ const rec_t* rec) /* in: record */ { return(page_rec_is_supremum_low(page_offset(rec))); } /**************************************************************** TRUE if the record is the infimum record on a page. */ UNIV_INLINE ibool page_rec_is_infimum( /*================*/ /* out: TRUE if the infimum record */ const rec_t* rec) /* in: record */ { return(page_rec_is_infimum_low(page_offset(rec))); } /***************************************************************** Compares a data tuple to a physical record. Differs from the function cmp_dtuple_rec_with_match in the way that the record must reside on an index page, and also page infimum and supremum records can be given in the parameter rec. These are considered as the negative infinity and the positive infinity in the alphabetical order. */ UNIV_INLINE int page_cmp_dtuple_rec_with_match( /*===========================*/ /* out: 1, 0, -1, if dtuple is greater, equal, less than rec, respectively, when only the common first fields are compared */ const dtuple_t* dtuple, /* in: data tuple */ const rec_t* rec, /* in: physical record on a page; may also be page infimum or supremum, in which case matched-parameter values below are not affected */ const ulint* offsets,/* in: array returned by rec_get_offsets() */ ulint* matched_fields, /* in/out: number of already completely matched fields; when function returns contains the value for current comparison */ ulint* matched_bytes) /* in/out: number of already matched bytes within the first field not completely matched; when function returns contains the value for current comparison */ { ulint rec_offset; ut_ad(dtuple_check_typed(dtuple)); ut_ad(rec_offs_validate(rec, NULL, offsets)); ut_ad(!rec_offs_comp(offsets) == !page_rec_is_comp(rec)); rec_offset = page_offset(rec); if (UNIV_UNLIKELY(rec_offset == PAGE_NEW_INFIMUM) || UNIV_UNLIKELY(rec_offset == PAGE_OLD_INFIMUM)) { return(1); } if (UNIV_UNLIKELY(rec_offset == PAGE_NEW_SUPREMUM) || UNIV_UNLIKELY(rec_offset == PAGE_OLD_SUPREMUM)) { return(-1); } return(cmp_dtuple_rec_with_match(dtuple, rec, offsets, matched_fields, matched_bytes)); } /***************************************************************** Gets the page number. */ UNIV_INLINE ulint page_get_page_no( /*=============*/ /* out: page number */ const page_t* page) /* in: page */ { ut_ad(page == page_align((page_t*) page)); return(mach_read_from_4(page + FIL_PAGE_OFFSET)); } /***************************************************************** Gets the tablespace identifier. */ UNIV_INLINE ulint page_get_space_id( /*==============*/ /* out: space id */ const page_t* page) /* in: page */ { ut_ad(page == page_align((page_t*) page)); return(mach_read_from_4(page + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID)); } /***************************************************************** Gets the number of user records on page (infimum and supremum records are not user records). */ UNIV_INLINE ulint page_get_n_recs( /*============*/ /* out: number of user records */ const page_t* page) /* in: index page */ { return(page_header_get_field(page, PAGE_N_RECS)); } /***************************************************************** Gets the number of dir slots in directory. */ UNIV_INLINE ulint page_dir_get_n_slots( /*=================*/ /* out: number of slots */ const page_t* page) /* in: index page */ { return(page_header_get_field(page, PAGE_N_DIR_SLOTS)); } /***************************************************************** Sets the number of dir slots in directory. */ UNIV_INLINE void page_dir_set_n_slots( /*=================*/ page_t* page, /* in/out: page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL */ ulint n_slots)/* in: number of slots */ { page_header_set_field(page, page_zip, PAGE_N_DIR_SLOTS, n_slots); } /***************************************************************** Gets the number of records in the heap. */ UNIV_INLINE ulint page_dir_get_n_heap( /*================*/ /* out: number of user records */ const page_t* page) /* in: index page */ { return(page_header_get_field(page, PAGE_N_HEAP) & 0x7fff); } /***************************************************************** Sets the number of records in the heap. */ UNIV_INLINE void page_dir_set_n_heap( /*================*/ page_t* page, /* in/out: index page */ page_zip_des_t* page_zip,/* in/out: compressed page whose uncompressed part will be updated, or NULL. Note that the size of the dense page directory in the compressed page trailer is n_heap * PAGE_ZIP_DIR_SLOT_SIZE. */ ulint n_heap) /* in: number of records */ { ut_ad(n_heap < 0x8000); ut_ad(!page_zip || n_heap == (page_header_get_field(page, PAGE_N_HEAP) & 0x7fff) + 1); page_header_set_field(page, page_zip, PAGE_N_HEAP, n_heap | (0x8000 & page_header_get_field(page, PAGE_N_HEAP))); } /***************************************************************** Gets pointer to nth directory slot. */ UNIV_INLINE page_dir_slot_t* page_dir_get_nth_slot( /*==================*/ /* out: pointer to dir slot */ page_t* page, /* in: index page */ ulint n) /* in: position */ { ut_ad(page_dir_get_n_slots(page) > n); return(page + UNIV_PAGE_SIZE - PAGE_DIR - (n + 1) * PAGE_DIR_SLOT_SIZE); } /****************************************************************** Used to check the consistency of a record on a page. */ UNIV_INLINE ibool page_rec_check( /*===========*/ /* out: TRUE if succeed */ const rec_t* rec) /* in: record */ { const page_t* page = page_align(rec); ut_a(rec); ut_a(page_offset(rec) <= page_header_get_field(page, PAGE_HEAP_TOP)); ut_a(page_offset(rec) >= PAGE_DATA); return(TRUE); } /******************************************************************* Gets the record pointed to by a directory slot. */ UNIV_INLINE rec_t* page_dir_slot_get_rec( /*==================*/ /* out: pointer to record */ page_dir_slot_t* slot) /* in: directory slot */ { return(page_align(slot) + mach_read_from_2(slot)); } /******************************************************************* This is used to set the record offset in a directory slot. */ UNIV_INLINE void page_dir_slot_set_rec( /*==================*/ page_dir_slot_t* slot, /* in: directory slot */ rec_t* rec) /* in: record on the page */ { ut_ad(page_rec_check(rec)); mach_write_to_2(slot, page_offset(rec)); } /******************************************************************* Gets the number of records owned by a directory slot. */ UNIV_INLINE ulint page_dir_slot_get_n_owned( /*======================*/ /* out: number of records */ page_dir_slot_t* slot) /* in: page directory slot */ { rec_t* rec = page_dir_slot_get_rec(slot); if (page_rec_is_comp(slot)) { return(rec_get_n_owned_new(rec)); } else { return(rec_get_n_owned_old(rec)); } } /******************************************************************* This is used to set the owned records field of a directory slot. */ UNIV_INLINE void page_dir_slot_set_n_owned( /*======================*/ page_dir_slot_t*slot, /* in/out: directory slot */ page_zip_des_t* page_zip,/* in/out: compressed page, or NULL */ ulint n) /* in: number of records owned by the slot */ { rec_t* rec = page_dir_slot_get_rec(slot); if (page_rec_is_comp(slot)) { rec_set_n_owned_new(rec, page_zip, n); } else { ut_ad(!page_zip); rec_set_n_owned_old(rec, n); } } /**************************************************************** Calculates the space reserved for directory slots of a given number of records. The exact value is a fraction number n * PAGE_DIR_SLOT_SIZE / PAGE_DIR_SLOT_MIN_N_OWNED, and it is rounded upwards to an integer. */ UNIV_INLINE ulint page_dir_calc_reserved_space( /*=========================*/ ulint n_recs) /* in: number of records */ { return((PAGE_DIR_SLOT_SIZE * n_recs + PAGE_DIR_SLOT_MIN_N_OWNED - 1) / PAGE_DIR_SLOT_MIN_N_OWNED); } /**************************************************************** Gets the pointer to the next record on the page. */ UNIV_INLINE rec_t* page_rec_get_next_low( /*==================*/ /* out: pointer to next record */ rec_t* rec, /* in: pointer to record */ ulint comp) /* in: nonzero=compact page layout */ { ulint offs; page_t* page; ut_ad(page_rec_check(rec)); page = page_align(rec); offs = rec_get_next_offs(rec, comp); if (UNIV_UNLIKELY(offs >= UNIV_PAGE_SIZE)) { fprintf(stderr, "InnoDB: Next record offset is nonsensical %lu" " in record at offset %lu\n" "InnoDB: rec address %p, space id %lu, page %lu\n", (ulong)offs, (ulong) page_offset(rec), (void*) rec, (ulong) page_get_space_id(page), (ulong) page_get_page_no(page)); buf_page_print(page, 0); ut_error; } if (UNIV_UNLIKELY(offs == 0)) { return(NULL); } return(page + offs); } /**************************************************************** Gets the pointer to the next record on the page. */ UNIV_INLINE rec_t* page_rec_get_next( /*==============*/ /* out: pointer to next record */ rec_t* rec) /* in: pointer to record */ { return(page_rec_get_next_low(rec, page_rec_is_comp(rec))); } /**************************************************************** Sets the pointer to the next record on the page. */ UNIV_INLINE void page_rec_set_next( /*==============*/ rec_t* rec, /* in: pointer to record, must not be page supremum */ rec_t* next) /* in: pointer to next record, must not be page infimum */ { ulint offs; ut_ad(page_rec_check(rec)); ut_ad(!page_rec_is_supremum(rec)); ut_ad(rec != next); ut_ad(!next || !page_rec_is_infimum(next)); ut_ad(!next || page_align(rec) == page_align(next)); if (UNIV_LIKELY(next != NULL)) { offs = page_offset(next); } else { offs = 0; } if (page_rec_is_comp(rec)) { rec_set_next_offs_new(rec, offs); } else { rec_set_next_offs_old(rec, offs); } } /**************************************************************** Gets the pointer to the previous record. */ UNIV_INLINE rec_t* page_rec_get_prev( /*==============*/ /* out: pointer to previous record */ rec_t* rec) /* in: pointer to record, must not be page infimum */ { page_dir_slot_t* slot; ulint slot_no; rec_t* rec2; rec_t* prev_rec = NULL; page_t* page; ut_ad(page_rec_check(rec)); page = page_align(rec); ut_ad(!page_rec_is_infimum(rec)); slot_no = page_dir_find_owner_slot(rec); ut_a(slot_no != 0); slot = page_dir_get_nth_slot(page, slot_no - 1); rec2 = page_dir_slot_get_rec(slot); if (page_is_comp(page)) { while (rec != rec2) { prev_rec = rec2; rec2 = page_rec_get_next_low(rec2, TRUE); } } else { while (rec != rec2) { prev_rec = rec2; rec2 = page_rec_get_next_low(rec2, FALSE); } } ut_a(prev_rec); return(prev_rec); } /******************************************************************* Looks for the record which owns the given record. */ UNIV_INLINE rec_t* page_rec_find_owner_rec( /*====================*/ /* out: the owner record */ rec_t* rec) /* in: the physical record */ { ut_ad(page_rec_check(rec)); if (page_rec_is_comp(rec)) { while (rec_get_n_owned_new(rec) == 0) { rec = page_rec_get_next(rec); } } else { while (rec_get_n_owned_old(rec) == 0) { rec = page_rec_get_next(rec); } } return(rec); } /************************************************************** Returns the base extra size of a physical record. This is the size of the fixed header, independent of the record size. */ UNIV_INLINE ulint page_rec_get_base_extra_size( /*=========================*/ /* out: REC_N_NEW_EXTRA_BYTES or REC_N_OLD_EXTRA_BYTES */ const rec_t* rec) /* in: physical record */ { #if REC_N_NEW_EXTRA_BYTES + 1 != REC_N_OLD_EXTRA_BYTES # error "REC_N_NEW_EXTRA_BYTES + 1 != REC_N_OLD_EXTRA_BYTES" #endif return(REC_N_NEW_EXTRA_BYTES + (ulint) !page_rec_is_comp(rec)); } /**************************************************************** Returns the sum of the sizes of the records in the record list, excluding the infimum and supremum records. */ UNIV_INLINE ulint page_get_data_size( /*===============*/ /* out: data in bytes */ const page_t* page) /* in: index page */ { ulint ret; ret = (ulint)(page_header_get_field(page, PAGE_HEAP_TOP) - (page_is_comp(page) ? PAGE_NEW_SUPREMUM_END : PAGE_OLD_SUPREMUM_END) - page_header_get_field(page, PAGE_GARBAGE)); ut_ad(ret < UNIV_PAGE_SIZE); return(ret); } /**************************************************************** Allocates a block of memory from the free list of an index page. */ void page_mem_alloc_free( /*================*/ page_t* page, /* in/out: index page */ page_zip_des_t* page_zip,/* in/out: compressed page with enough space available for inserting the record, or NULL */ rec_t* next_rec,/* in: pointer to the new head of the free record list */ ulint need) /* in: number of bytes allocated */ { ulint garbage; #ifdef UNIV_DEBUG const rec_t* old_rec = page_header_get_ptr(page, PAGE_FREE); ulint next_offs; ut_ad(old_rec); next_offs = rec_get_next_offs(old_rec, page_is_comp(page)); ut_ad(next_rec == (next_offs ? page + next_offs : NULL)); #endif page_header_set_ptr(page, page_zip, PAGE_FREE, next_rec); garbage = page_header_get_field(page, PAGE_GARBAGE); ut_ad(garbage >= need); page_header_set_field(page, page_zip, PAGE_GARBAGE, garbage - need); } /***************************************************************** Calculates free space if a page is emptied. */ UNIV_INLINE ulint page_get_free_space_of_empty( /*=========================*/ /* out: free space */ ulint comp) /* in: nonzero=compact page layout */ { if (UNIV_LIKELY(comp)) { return((ulint)(UNIV_PAGE_SIZE - PAGE_NEW_SUPREMUM_END - PAGE_DIR - 2 * PAGE_DIR_SLOT_SIZE)); } return((ulint)(UNIV_PAGE_SIZE - PAGE_OLD_SUPREMUM_END - PAGE_DIR - 2 * PAGE_DIR_SLOT_SIZE)); } /**************************************************************** Each user record on a page, and also the deleted user records in the heap takes its size plus the fraction of the dir cell size / PAGE_DIR_SLOT_MIN_N_OWNED bytes for it. If the sum of these exceeds the value of page_get_free_space_of_empty, the insert is impossible, otherwise it is allowed. This function returns the maximum combined size of records which can be inserted on top of the record heap. */ UNIV_INLINE ulint page_get_max_insert_size( /*=====================*/ /* out: maximum combined size for inserted records */ const page_t* page, /* in: index page */ ulint n_recs) /* in: number of records */ { ulint occupied; ulint free_space; if (page_is_comp(page)) { occupied = page_header_get_field(page, PAGE_HEAP_TOP) - PAGE_NEW_SUPREMUM_END + page_dir_calc_reserved_space( n_recs + page_dir_get_n_heap(page) - 2); free_space = page_get_free_space_of_empty(TRUE); } else { occupied = page_header_get_field(page, PAGE_HEAP_TOP) - PAGE_OLD_SUPREMUM_END + page_dir_calc_reserved_space( n_recs + page_dir_get_n_heap(page) - 2); free_space = page_get_free_space_of_empty(FALSE); } /* Above the 'n_recs +' part reserves directory space for the new inserted records; the '- 2' excludes page infimum and supremum records */ if (occupied > free_space) { return(0); } return(free_space - occupied); } /**************************************************************** Returns the maximum combined size of records which can be inserted on top of the record heap if a page is first reorganized. */ UNIV_INLINE ulint page_get_max_insert_size_after_reorganize( /*======================================*/ /* out: maximum combined size for inserted records */ const page_t* page, /* in: index page */ ulint n_recs) /* in: number of records */ { ulint occupied; ulint free_space; occupied = page_get_data_size(page) + page_dir_calc_reserved_space(n_recs + page_get_n_recs(page)); free_space = page_get_free_space_of_empty(page_is_comp(page)); if (occupied > free_space) { return(0); } return(free_space - occupied); } /**************************************************************** Puts a record to free list. */ UNIV_INLINE void page_mem_free( /*==========*/ page_t* page, /* in/out: index page */ page_zip_des_t* page_zip,/* in/out: compressed page with at least 6 bytes available, or NULL */ rec_t* rec, /* in: pointer to the (origin of) record */ dict_index_t* index, /* in: index of rec */ const ulint* offsets)/* in: array returned by rec_get_offsets() */ { rec_t* free; ulint garbage; ut_ad(rec_offs_validate(rec, index, offsets)); free = page_header_get_ptr(page, PAGE_FREE); page_rec_set_next(rec, free); page_header_set_ptr(page, page_zip, PAGE_FREE, rec); garbage = page_header_get_field(page, PAGE_GARBAGE); page_header_set_field(page, page_zip, PAGE_GARBAGE, garbage + rec_offs_size(offsets)); if (UNIV_LIKELY_NULL(page_zip)) { page_zip_dir_delete(page_zip, rec, index, offsets, free); } else { page_header_set_field(page, page_zip, PAGE_N_RECS, page_get_n_recs(page) - 1); } } #ifdef UNIV_MATERIALIZE #undef UNIV_INLINE #define UNIV_INLINE UNIV_INLINE_ORIGINAL #endif