// SPDX-License-Identifier: MIT OR MPL-2.0 OR LGPL-2.1-or-later OR GPL-2.0-or-later // Copyright 2010, SIL International, All rights reserved. #include "graphite2/Segment.h" #include "inc/UtfCodec.h" #include "inc/Segment.h" using namespace graphite2; namespace { gr_segment* makeAndInitialize(const Font *font, const Face *face, uint32 script, const Features* pFeats/*must not be NULL*/, gr_encform enc, const void* pStart, size_t nChars, int dir) { if (script == 0x20202020) script = 0; else if ((script & 0x00FFFFFF) == 0x00202020) script = script & 0xFF000000; else if ((script & 0x0000FFFF) == 0x00002020) script = script & 0xFFFF0000; else if ((script & 0x000000FF) == 0x00000020) script = script & 0xFFFFFF00; // if (!font) return NULL; Segment* pRes=new Segment(nChars, face, script, dir); if (!pRes->read_text(face, pFeats, enc, pStart, nChars) || !pRes->runGraphite()) { delete pRes; return NULL; } pRes->finalise(font, true); return static_cast(pRes); } template inline size_t count_unicode_chars(utf_iter first, const utf_iter last, const void **error) { size_t n_chars = 0; uint32 usv = 0; if (last) { if (!first.validate(last)) { if (error) *error = last - 1; return 0; } for (;first != last; ++first, ++n_chars) if ((usv = *first) == 0 || first.error()) break; } else { while ((usv = *first) != 0 && !first.error()) { ++first; ++n_chars; } } if (error) *error = first.error() ? first : 0; return n_chars; } } extern "C" { size_t gr_count_unicode_characters(gr_encform enc, const void* buffer_begin, const void* buffer_end/*don't go on or past end, If NULL then ignored*/, const void** pError) //Also stops on nul. Any nul is not in the count { assert(buffer_begin); switch (enc) { case gr_utf8: return count_unicode_chars(buffer_begin, buffer_end, pError); break; case gr_utf16: return count_unicode_chars(buffer_begin, buffer_end, pError); break; case gr_utf32: return count_unicode_chars(buffer_begin, buffer_end, pError); break; default: return 0; } } gr_segment* gr_make_seg(const gr_font *font, const gr_face *face, gr_uint32 script, const gr_feature_val* pFeats, gr_encform enc, const void* pStart, size_t nChars, int dir) { if (!face) return nullptr; const gr_feature_val * tmp_feats = 0; if (pFeats == 0) pFeats = tmp_feats = static_cast(face->theSill().cloneFeatures(0)); gr_segment * seg = makeAndInitialize(font, face, script, pFeats, enc, pStart, nChars, dir); delete static_cast(tmp_feats); return seg; } void gr_seg_destroy(gr_segment* p) { delete static_cast(p); } float gr_seg_advance_X(const gr_segment* pSeg/*not NULL*/) { assert(pSeg); return pSeg->advance().x; } float gr_seg_advance_Y(const gr_segment* pSeg/*not NULL*/) { assert(pSeg); return pSeg->advance().y; } unsigned int gr_seg_n_cinfo(const gr_segment* pSeg/*not NULL*/) { assert(pSeg); return static_cast(pSeg->charInfoCount()); } const gr_char_info* gr_seg_cinfo(const gr_segment* pSeg/*not NULL*/, unsigned int index/*must be (pSeg->charinfo(index)); } unsigned int gr_seg_n_slots(const gr_segment* pSeg/*not NULL*/) { assert(pSeg); return static_cast(pSeg->slotCount()); } const gr_slot* gr_seg_first_slot(gr_segment* pSeg/*not NULL*/) { assert(pSeg); return static_cast(pSeg->first()); } const gr_slot* gr_seg_last_slot(gr_segment* pSeg/*not NULL*/) { assert(pSeg); return static_cast(pSeg->last()); } float gr_seg_justify(gr_segment* pSeg/*not NULL*/, const gr_slot* pSlot/*not NULL*/, const gr_font *pFont, double width, enum gr_justFlags flags, const gr_slot *pFirst, const gr_slot *pLast) { assert(pSeg); assert(pSlot); return pSeg->justify(const_cast(pSlot), pFont, float(width), justFlags(flags), const_cast(pFirst), const_cast(pLast)); } } // extern "C"