/* Copyright (C) 2001-2020 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato, CA 94945, U.S.A., +1(415)492-9861, for further information. */ /* Glyph data cache methods. */ #include "gx.h" #include "gserrors.h" #include "memory_.h" #include "gsstruct.h" #include "gsgdata.h" #include "gsgcache.h" #include "gxfont.h" #include "gxfont42.h" /* * This implementation hardcodes the type 42 font type. * We could generalize it, but since CIDFontType 0 uses * a PS procedure for reading glyphs, it is hardly applicable. * * The caching is mostly useful for glyphs with multiple components, * but CIDFontType 0 has 2 components max, which are relatively seldom. * Also it is low useful for fonts, which fully loaded into RAM. * FAPI does not need a caching, because renderer pludins access * font data through a file handle by own means. * * Due to all above, currently the caching is applied * only while emulating CIDFontType 2 with a True Type file. */ typedef struct gs_glyph_cache_elem_s gs_glyph_cache_elem; struct gs_glyph_cache_elem_s { gs_glyph_data_t gd; uint glyph_index; uint lock_count; gs_glyph_cache_elem *next; }; gs_private_st_composite(st_glyph_cache_elem, gs_glyph_cache_elem, "gs_glyph_cache_elem", gs_glyph_cache_elem_enum_ptrs, gs_glyph_cache_elem_reloc_ptrs); static ENUM_PTRS_WITH(gs_glyph_cache_elem_enum_ptrs, gs_glyph_cache_elem *e) { index --; if (index < ST_GLYPH_DATA_NUM_PTRS) return ENUM_USING(st_glyph_data, &e->gd, sizeof(e->gd), index); return 0; } ENUM_PTR(0, gs_glyph_cache_elem, next); ENUM_PTRS_END static RELOC_PTRS_WITH(gs_glyph_cache_elem_reloc_ptrs, gs_glyph_cache_elem *e) { RELOC_PTR(gs_glyph_cache_elem, next); RELOC_USING(st_glyph_data, &e->gd, sizeof(e->gd)); } RELOC_PTRS_END struct gs_glyph_cache_s { int total_size; gs_glyph_cache_elem *list; gs_memory_t *memory; gs_font_type42 *pfont; stream *s; get_glyph_data_from_file read_data; }; gs_private_st_ptrs4(st_glyph_cache, gs_glyph_cache, "gs_glyph_cache", gs_glyph_cache_enum_ptrs, gs_glyph_cache_reloc_ptrs, list, memory, pfont, s); GS_NOTIFY_PROC(gs_glpyh_cache__release); gs_glyph_cache * gs_glyph_cache__alloc(gs_font_type42 *pfont, stream *s, get_glyph_data_from_file read_data) { gs_memory_t *mem = pfont->memory->stable_memory; gs_glyph_cache *gdcache = (gs_glyph_cache *)gs_alloc_struct(mem, gs_glyph_cache, &st_glyph_cache, "gs_glyph_cache"); if (gdcache == 0) return 0; gdcache->total_size = 0; gdcache->list = NULL; gdcache->pfont = pfont; gdcache->s = s; /* * The cache elements need to be in stable memory so they don't * get removed by 'restore' (elements can be created at a different * save level than the current level) */ gdcache->memory = mem; gdcache->read_data = read_data; gs_font_notify_register((gs_font *)pfont, gs_glyph_cache__release, (void *)gdcache); return gdcache; } int gs_glyph_cache__release(void *data, void *event) { gs_glyph_cache *self = (gs_glyph_cache *)data; gs_glyph_cache_elem *e = self->list; gs_font_type42 *pfont = self->pfont; while (e != NULL) { gs_glyph_cache_elem *next_e; next_e = e->next; e->gd.procs->free(&e->gd, "gs_glyph_cache__release"); gs_free_object(self->memory, e, "gs_glyph_cache_elem__release"); e = next_e; } self->list = NULL; gs_font_notify_unregister((gs_font *)pfont, gs_glyph_cache__release, (void *)self); gs_free_object(self->memory, self, "gs_glyph_cache__release"); return 0; } static gs_glyph_cache_elem ** gs_glyph_cache_elem__locate(gs_glyph_cache *self, uint glyph_index) { /* If not fond, returns an unlocked element. */ gs_glyph_cache_elem **e = &self->list, **p_unlocked = NULL; int count = 0; /* debug purpose only */ for (; *e != 0; e = &(*e)->next, count++) { if ((*e)->glyph_index == glyph_index) { return e; } if ((*e)->lock_count == 0) p_unlocked = e; } return p_unlocked; } static inline void gs_glyph_cache_elem__move_to_head(gs_glyph_cache *self, gs_glyph_cache_elem **pe) { gs_glyph_cache_elem *e = *pe; *pe = e->next; e->next = self->list; self->list = e; } /* Manage the glyph data using the font's allocator. */ static void gs_glyph_cache_elem__free_data(gs_glyph_data_t *pgd, client_name_t cname) { gs_glyph_cache_elem *e = (gs_glyph_cache_elem *)pgd->proc_data; e->lock_count--; } static int gs_glyph_cache_elem__substring(gs_glyph_data_t *pgd, uint offset, uint size) { gs_glyph_cache_elem *e = (gs_glyph_cache_elem *)pgd->proc_data; e->lock_count++; return_error(gs_error_unregistered); /* Unsupported; should not happen. */ } static const gs_glyph_data_procs_t gs_glyph_cache_elem_procs = { gs_glyph_cache_elem__free_data, gs_glyph_cache_elem__substring }; int gs_get_glyph_data_cached(gs_font_type42 *pfont, uint glyph_index, gs_glyph_data_t *pgd) { gs_glyph_cache *gdcache = pfont->data.gdcache; gs_glyph_cache_elem **pe = gs_glyph_cache_elem__locate(gdcache, glyph_index); gs_glyph_cache_elem *e = NULL; if (pe == NULL || (*pe)->glyph_index != glyph_index) { int code; if (pe != NULL && gdcache->total_size > 32767 /* arbitrary */ && (*pe)->lock_count <= 0) { /* Release the element's data, and move it : */ e = *pe; gdcache->total_size -= e->gd.bits.size + sizeof(*e); e->gd.procs->free(&e->gd, "gs_get_glyph_data_cached"); gs_glyph_cache_elem__move_to_head(gdcache, pe); } else { /* Allocate new head element. */ e = (gs_glyph_cache_elem *)gs_alloc_struct(gdcache->memory, gs_glyph_cache_elem, &st_glyph_cache_elem, "gs_glyph_cache_elem"); if (e == NULL) return_error(gs_error_VMerror); memset(e, 0, sizeof(*e)); e->next = gdcache->list; gdcache->list = e; e->gd.memory = gdcache->memory; } /* Load the element's data : */ code = (*gdcache->read_data)(pfont, gdcache->s, glyph_index, &e->gd); if (code < 0) return code; gdcache->total_size += e->gd.bits.size + sizeof(*e); e->glyph_index = glyph_index; } else { /* Move the element : */ e = *pe; gs_glyph_cache_elem__move_to_head(gdcache, pe); } /* Copy data and set procs : */ pgd->bits = e->gd.bits; pgd->proc_data = e; pgd->procs = &gs_glyph_cache_elem_procs; e->lock_count++; return 0; }