/* $Xorg: fontutil.c,v 1.3 2000/08/17 19:46:39 cpqbld Exp $ */ /* Copyright 1991, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* $XFree86: xc/lib/font/util/fontutil.c,v 3.5 2001/01/17 19:43:33 dawes Exp $ */ /* * Author: Keith Packard, MIT X Consortium */ #include "fontmisc.h" #include "fontstruct.h" #include "FSproto.h" #include "fontutil.h" /* Define global here... doesn't hurt the servers, and avoids unresolved references in font clients. */ static int defaultGlyphCachingMode = DEFAULT_GLYPH_CACHING_MODE; int glyphCachingMode = DEFAULT_GLYPH_CACHING_MODE; void GetGlyphs(FontPtr font, unsigned long count, unsigned char *chars, FontEncoding fontEncoding, unsigned long *glyphcount, /* RETURN */ CharInfoPtr *glyphs) /* RETURN */ { (*font->get_glyphs) (font, count, chars, fontEncoding, glyphcount, glyphs); } #define MIN(a,b) ((a)<(b)?(a):(b)) #define MAX(a,b) ((a)>(b)?(a):(b)) void QueryGlyphExtents(FontPtr pFont, CharInfoPtr *charinfo, unsigned long count, ExtentInfoRec *info) { register unsigned long i; xCharInfo *pCI; info->drawDirection = pFont->info.drawDirection; info->fontAscent = pFont->info.fontAscent; info->fontDescent = pFont->info.fontDescent; if (count != 0) { pCI = &((*charinfo)->metrics); charinfo++; /* ignore nonexisting characters when calculating text extents */ if ( !((pCI->characterWidth == 0) && (pCI->rightSideBearing == 0) && (pCI->leftSideBearing == 0) && (pCI->ascent == 0) && (pCI->descent == 0)) ) { info->overallAscent = pCI->ascent; info->overallDescent = pCI->descent; info->overallLeft = pCI->leftSideBearing; info->overallRight = pCI->rightSideBearing; info->overallWidth = pCI->characterWidth; } if (pFont->info.constantMetrics && pFont->info.noOverlap) { info->overallWidth *= count; info->overallRight += (info->overallWidth - pCI->characterWidth); } else { for (i = 1; i < count; i++) { pCI = &((*charinfo)->metrics); charinfo++; /* ignore nonexisting characters when calculating extents */ if ( !((pCI->characterWidth == 0) && (pCI->rightSideBearing == 0) && (pCI->leftSideBearing == 0) && (pCI->ascent == 0) && (pCI->descent == 0)) ) { info->overallAscent = MAX( info->overallAscent, pCI->ascent); info->overallDescent = MAX( info->overallDescent, pCI->descent); info->overallLeft = MIN( info->overallLeft, info->overallWidth + pCI->leftSideBearing); info->overallRight = MAX( info->overallRight, info->overallWidth + pCI->rightSideBearing); /* * yes, this order is correct; overallWidth IS incremented * last */ info->overallWidth += pCI->characterWidth; } } } } else { info->overallAscent = 0; info->overallDescent = 0; info->overallWidth = 0; info->overallLeft = 0; info->overallRight = 0; } } Bool QueryTextExtents(FontPtr pFont, unsigned long count, unsigned char *chars, ExtentInfoRec *info) { xCharInfo **charinfo; unsigned long n; FontEncoding encoding; int cm; int i; unsigned long t; xCharInfo *defaultChar = 0; unsigned char defc[2]; int firstReal; charinfo = (xCharInfo **) xalloc(count * sizeof(xCharInfo *)); if (!charinfo) return FALSE; encoding = TwoD16Bit; if (pFont->info.lastRow == 0) encoding = Linear16Bit; (*pFont->get_metrics) (pFont, count, chars, encoding, &n, charinfo); /* Do default character substitution as get_metrics doesn't */ #define IsNonExistentChar(ci) (!(ci) || \ ((ci)->ascent == 0 && \ (ci)->descent == 0 && \ (ci)->leftSideBearing == 0 && \ (ci)->rightSideBearing == 0 && \ (ci)->characterWidth == 0)) firstReal = n; defc[0] = pFont->info.defaultCh >> 8; defc[1] = pFont->info.defaultCh; (*pFont->get_metrics) (pFont, 1, defc, encoding, &t, &defaultChar); if ((IsNonExistentChar (defaultChar))) defaultChar = 0; for (i = 0; i < n; i++) { if ((IsNonExistentChar (charinfo[i]))) { if (!defaultChar) continue; charinfo[i] = defaultChar; } if (firstReal == n) firstReal = i; } cm = pFont->info.constantMetrics; pFont->info.constantMetrics = FALSE; QueryGlyphExtents(pFont, (CharInfoPtr*) charinfo + firstReal, n - firstReal, info); pFont->info.constantMetrics = cm; xfree(charinfo); return TRUE; } Bool ParseGlyphCachingMode(char *str) { if (!strcmp(str, "none")) defaultGlyphCachingMode = CACHING_OFF; else if (!strcmp(str, "all")) defaultGlyphCachingMode = CACHE_ALL_GLYPHS; else if (!strcmp(str, "16")) defaultGlyphCachingMode = CACHE_16_BIT_GLYPHS; else return FALSE; return TRUE; } void InitGlyphCaching(void) { /* Set glyphCachingMode to the mode the server hopes to support. DDX drivers that do not support the requested level of glyph caching can call SetGlyphCachingMode to lower the level of support. */ glyphCachingMode = defaultGlyphCachingMode; } /* ddxen can call SetGlyphCachingMode to inform us of what level of glyph * caching they can support. */ void SetGlyphCachingMode(int newmode) { if ( (glyphCachingMode > newmode) && (newmode >= 0) ) glyphCachingMode = newmode; } #define range_alloc_granularity 16 #define mincharp(p) ((p)->min_char_low + ((p)->min_char_high << 8)) #define maxcharp(p) ((p)->max_char_low + ((p)->max_char_high << 8)) /* add_range(): Add range to a list of ranges, with coalescence */ int add_range(fsRange *newrange, int *nranges, fsRange **range, Bool charset_subset) { int first, last, middle; unsigned long keymin, keymax; unsigned long ptrmin, ptrmax; fsRange *ptr, *ptr1, *ptr2, *endptr; /* There are two different ways to treat ranges: 1) Charset subsetting (support of the HP XLFD enhancements), in which a range of 0x1234,0x3456 means all numbers between 0x1234 and 0x3456, and in which min and max might be swapped. 2) Row/column ranges, in which a range of 0x1234,0x3456 means the ranges 0x1234-0x1256, 0x1334-0x1356, ... , 0x3434-0x3456. This is for support of glyph caching. The choice of treatment is selected with the "charset_subset" flag */ /* If newrange covers multiple rows; break up the rows */ if (!charset_subset && newrange->min_char_high != newrange->max_char_high) { int i, err; fsRange temprange; for (i = newrange->min_char_high; i <= newrange->max_char_high; i++) { temprange.min_char_low = newrange->min_char_low; temprange.max_char_low = newrange->max_char_low; temprange.min_char_high = temprange.max_char_high = i; err = add_range(&temprange, nranges, range, charset_subset); if (err != Successful) break; } return err; } keymin = mincharp(newrange); keymax = maxcharp(newrange); if (charset_subset && keymin > keymax) { unsigned long temp = keymin; keymin = keymax; keymax = temp; } /* add_range() maintains a sorted list; this makes possible coalescence and binary searches */ /* Binary search for a range with which the new range can merge */ first = middle = 0; last = *nranges - 1; while (last >= first) { middle = (first + last) / 2; ptr = (*range) + middle; ptrmin = mincharp(ptr); ptrmax = maxcharp(ptr); if (ptrmin > 0 && keymax < ptrmin - 1) last = middle - 1; else if (keymin > ptrmax + 1) first = middle + 1; else if (!charset_subset) { /* We might have a range with which to merge... IF the result doesn't cross rows */ if (newrange->min_char_high != ptr->min_char_high) last = first - 1; /* Force adding a new range */ break; } else break; /* We have at least one range with which we can merge */ } if (last < first) { /* Search failed; we need to add a new range to the list. */ /* Grow the list if necessary */ if (*nranges == 0 || *range == (fsRange *)0) { *range = (fsRange *)xalloc(range_alloc_granularity * SIZEOF(fsRange)); *nranges = 0; } else if (!(*nranges % range_alloc_granularity)) { *range = (fsRange *)xrealloc((char *)*range, (*nranges + range_alloc_granularity) * SIZEOF(fsRange)); } /* If alloc failed, just return a null list */ if (*range == (fsRange *)0) { *nranges = 0; return AllocError; } /* Should new entry go *at* or *after* ptr? */ ptr = (*range) + middle; if (middle < *nranges && keymin > ptrmin) ptr++; /* after */ /* Open up a space for our new range */ memmove((char *)(ptr + 1), (char *)ptr, (char *)(*range + *nranges) - (char *)ptr); /* Insert the new range */ ptr->min_char_low = keymin & 0xff; ptr->min_char_high = keymin >> 8; ptr->max_char_low = keymax & 0xff; ptr->max_char_high = keymax >> 8; /* Update range count */ (*nranges)++; /* Done */ return Successful; } /* Join our new range to that pointed to by "ptr" */ if (keymin < ptrmin) { ptr->min_char_low = keymin & 0xff; ptr->min_char_high = keymin >> 8; } if (keymax > ptrmax) { ptr->max_char_low = keymax & 0xff; ptr->max_char_high = keymax >> 8; } ptrmin = mincharp(ptr); ptrmax = maxcharp(ptr); endptr = *range + *nranges; for (ptr1 = ptr; ptr1 >= *range; ptr1--) { if (ptrmin <= maxcharp(ptr1) + 1) { if (!charset_subset && ptr->min_char_high != ptr1->min_char_high) break; if (ptrmin >= mincharp(ptr1)) ptrmin = mincharp(ptr1); } else break; } for (ptr2 = ptr; ptr2 < endptr; ptr2++) { if ((ptr2->min_char_low == 0 && ptr2->min_char_high == 0) || ptrmax >= mincharp(ptr2) - 1) { if (!charset_subset && ptr->min_char_high != ptr2->min_char_high) break; if (ptrmax <= maxcharp(ptr2)) ptrmax = maxcharp(ptr2); } else break; } /* We need to coalesce ranges between ptr1 and ptr2 exclusive */ ptr1++; ptr2--; if (ptr1 != ptr2) { memmove(ptr1, ptr2, (char *)endptr - (char *)ptr2); *nranges -= (ptr2 - ptr1); } /* Write the new range into the range list */ ptr1->min_char_low = ptrmin & 0xff; ptr1->min_char_high = ptrmin >> 8; ptr1->max_char_low = ptrmax & 0xff; ptr1->max_char_high = ptrmax >> 8; return Successful; } /* It is difficult to find a good place for this. */ #ifdef NEED_STRCASECMP int f_strcasecmp(const char *s1, const char *s2) { char c1, c2; if (*s1 == 0) if (*s2 == 0) return 0; else return 1; c1 = (isupper (*s1) ? tolower (*s1) : *s1); c2 = (isupper (*s2) ? tolower (*s2) : *s2); while (c1 == c2) { if (c1 == '\0') return 0; s1++; s2++; c1 = (isupper (*s1) ? tolower (*s1) : *s1); c2 = (isupper (*s2) ? tolower (*s2) : *s2); } return c1 - c2; } #endif