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Layout.cpp
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Layout.cpp
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/*
* Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "Minikin"
#include <cutils/log.h>
#include <string>
#include <vector>
#include <algorithm>
#include <fstream>
#include <iostream> // for debugging
#include <stdio.h> // ditto
#include <utils/JenkinsHash.h>
#include <utils/LruCache.h>
#include <utils/Singleton.h>
#include <utils/String16.h>
#include <unicode/ubidi.h>
#include <hb-icu.h>
#include "MinikinInternal.h"
#include <minikin/MinikinFontFreeType.h>
#include <minikin/Layout.h>
using std::string;
using std::vector;
namespace android {
// TODO: these should move into the header file, but for now we don't want
// to cause namespace collisions with TextLayout.h
enum {
kBidi_LTR = 0,
kBidi_RTL = 1,
kBidi_Default_LTR = 2,
kBidi_Default_RTL = 3,
kBidi_Force_LTR = 4,
kBidi_Force_RTL = 5,
kBidi_Mask = 0x7
};
const int kDirection_Mask = 0x1;
struct LayoutContext {
MinikinPaint paint;
FontStyle style;
std::vector<hb_font_t*> hbFonts; // parallel to mFaces
void clearHbFonts() {
for (size_t i = 0; i < hbFonts.size(); i++) {
hb_font_destroy(hbFonts[i]);
}
hbFonts.clear();
}
};
// Layout cache datatypes
class LayoutCacheKey {
public:
LayoutCacheKey(const FontCollection* collection, const MinikinPaint& paint, FontStyle style,
const uint16_t* chars, size_t start, size_t count, size_t nchars, bool dir)
: mStart(start), mCount(count), mId(collection->getId()), mStyle(style),
mSize(paint.size), mScaleX(paint.scaleX), mSkewX(paint.skewX),
mLetterSpacing(paint.letterSpacing),
mPaintFlags(paint.paintFlags), mIsRtl(dir),
mChars(chars), mNchars(nchars) {
}
bool operator==(const LayoutCacheKey &other) const;
hash_t hash() const;
void copyText() {
uint16_t* charsCopy = new uint16_t[mNchars];
memcpy(charsCopy, mChars, mNchars * sizeof(uint16_t));
mChars = charsCopy;
}
void freeText() {
delete[] mChars;
mChars = NULL;
}
void doLayout(Layout* layout, LayoutContext* ctx, const FontCollection* collection) const {
layout->setFontCollection(collection);
layout->mAdvances.resize(mCount, 0);
ctx->clearHbFonts();
layout->doLayoutRun(mChars, mStart, mCount, mNchars, mIsRtl, ctx);
}
private:
const uint16_t* mChars;
size_t mNchars;
size_t mStart;
size_t mCount;
uint32_t mId; // for the font collection
FontStyle mStyle;
float mSize;
float mScaleX;
float mSkewX;
float mLetterSpacing;
int32_t mPaintFlags;
bool mIsRtl;
// Note: any fields added to MinikinPaint must also be reflected here.
// TODO: language matching (possibly integrate into style)
};
class LayoutCache : private OnEntryRemoved<LayoutCacheKey, Layout*> {
public:
LayoutCache() : mCache(kMaxEntries) {
mCache.setOnEntryRemovedListener(this);
}
void clear() {
mCache.clear();
}
Layout* get(LayoutCacheKey& key, LayoutContext* ctx, const FontCollection* collection) {
Layout* layout = mCache.get(key);
if (layout == NULL) {
key.copyText();
layout = new Layout();
key.doLayout(layout, ctx, collection);
mCache.put(key, layout);
}
return layout;
}
private:
// callback for OnEntryRemoved
void operator()(LayoutCacheKey& key, Layout*& value) {
key.freeText();
delete value;
}
LruCache<LayoutCacheKey, Layout*> mCache;
//static const size_t kMaxEntries = LruCache<LayoutCacheKey, Layout*>::kUnlimitedCapacity;
// TODO: eviction based on memory footprint; for now, we just use a constant
// number of strings
static const size_t kMaxEntries = 5000;
};
class HbFaceCache : private OnEntryRemoved<int32_t, hb_face_t*> {
public:
HbFaceCache() : mCache(kMaxEntries) {
mCache.setOnEntryRemovedListener(this);
}
// callback for OnEntryRemoved
void operator()(int32_t& key, hb_face_t*& value) {
hb_face_destroy(value);
}
LruCache<int32_t, hb_face_t*> mCache;
private:
static const size_t kMaxEntries = 100;
};
class LayoutEngine : public Singleton<LayoutEngine> {
public:
LayoutEngine() {
hbBuffer = hb_buffer_create();
}
hb_buffer_t* hbBuffer;
LayoutCache layoutCache;
HbFaceCache hbFaceCache;
};
ANDROID_SINGLETON_STATIC_INSTANCE(LayoutEngine);
bool LayoutCacheKey::operator==(const LayoutCacheKey& other) const {
return mId == other.mId
&& mStart == other.mStart
&& mCount == other.mCount
&& mStyle == other.mStyle
&& mSize == other.mSize
&& mScaleX == other.mScaleX
&& mSkewX == other.mSkewX
&& mLetterSpacing == other.mLetterSpacing
&& mPaintFlags == other.mPaintFlags
&& mIsRtl == other.mIsRtl
&& mNchars == other.mNchars
&& !memcmp(mChars, other.mChars, mNchars * sizeof(uint16_t));
}
hash_t LayoutCacheKey::hash() const {
uint32_t hash = JenkinsHashMix(0, mId);
hash = JenkinsHashMix(hash, mStart);
hash = JenkinsHashMix(hash, mCount);
hash = JenkinsHashMix(hash, hash_type(mStyle));
hash = JenkinsHashMix(hash, hash_type(mSize));
hash = JenkinsHashMix(hash, hash_type(mScaleX));
hash = JenkinsHashMix(hash, hash_type(mSkewX));
hash = JenkinsHashMix(hash, hash_type(mLetterSpacing));
hash = JenkinsHashMix(hash, hash_type(mPaintFlags));
hash = JenkinsHashMix(hash, hash_type(mIsRtl));
hash = JenkinsHashMixShorts(hash, mChars, mNchars);
return JenkinsHashWhiten(hash);
}
hash_t hash_type(const LayoutCacheKey& key) {
return key.hash();
}
Bitmap::Bitmap(int width, int height) : width(width), height(height) {
buf = new uint8_t[width * height]();
}
Bitmap::~Bitmap() {
delete[] buf;
}
void Bitmap::writePnm(std::ofstream &o) const {
o << "P5" << std::endl;
o << width << " " << height << std::endl;
o << "255" << std::endl;
o.write((const char *)buf, width * height);
o.close();
}
void Bitmap::drawGlyph(const GlyphBitmap& bitmap, int x, int y) {
int bmw = bitmap.width;
int bmh = bitmap.height;
x += bitmap.left;
y -= bitmap.top;
int x0 = std::max(0, x);
int x1 = std::min(width, x + bmw);
int y0 = std::max(0, y);
int y1 = std::min(height, y + bmh);
const unsigned char* src = bitmap.buffer + (y0 - y) * bmw + (x0 - x);
uint8_t* dst = buf + y0 * width;
for (int yy = y0; yy < y1; yy++) {
for (int xx = x0; xx < x1; xx++) {
int pixel = (int)dst[xx] + (int)src[xx - x];
pixel = pixel > 0xff ? 0xff : pixel;
dst[xx] = pixel;
}
src += bmw;
dst += width;
}
}
void MinikinRect::join(const MinikinRect& r) {
if (isEmpty()) {
set(r);
} else if (!r.isEmpty()) {
mLeft = std::min(mLeft, r.mLeft);
mTop = std::min(mTop, r.mTop);
mRight = std::max(mRight, r.mRight);
mBottom = std::max(mBottom, r.mBottom);
}
}
// Deprecated. Remove when callers are removed.
void Layout::init() {
}
void Layout::reset() {
mGlyphs.clear();
mFaces.clear();
mBounds.setEmpty();
mAdvances.clear();
mAdvance = 0;
}
void Layout::setFontCollection(const FontCollection* collection) {
mCollection = collection;
}
hb_blob_t* referenceTable(hb_face_t* face, hb_tag_t tag, void* userData) {
MinikinFont* font = reinterpret_cast<MinikinFont*>(userData);
size_t length = 0;
bool ok = font->GetTable(tag, NULL, &length);
if (!ok) {
return 0;
}
char* buffer = reinterpret_cast<char*>(malloc(length));
if (!buffer) {
return 0;
}
ok = font->GetTable(tag, reinterpret_cast<uint8_t*>(buffer), &length);
printf("referenceTable %c%c%c%c length=%d %d\n",
(tag >>24) & 0xff, (tag>>16)&0xff, (tag>>8)&0xff, tag&0xff, length, ok);
if (!ok) {
free(buffer);
return 0;
}
return hb_blob_create(const_cast<char*>(buffer), length,
HB_MEMORY_MODE_WRITABLE, buffer, free);
}
static hb_bool_t harfbuzzGetGlyph(hb_font_t* hbFont, void* fontData, hb_codepoint_t unicode, hb_codepoint_t variationSelector, hb_codepoint_t* glyph, void* userData)
{
MinikinPaint* paint = reinterpret_cast<MinikinPaint*>(fontData);
MinikinFont* font = paint->font;
uint32_t glyph_id;
/* HarfBuzz replaces broken input codepoints with (unsigned int) -1.
* Skia expects valid Unicode.
* Replace invalid codepoints with U+FFFD REPLACEMENT CHARACTER.
*/
if (unicode > 0x10FFFF)
unicode = 0xFFFD;
bool ok = font->GetGlyph(unicode, &glyph_id);
if (ok) {
*glyph = glyph_id;
}
return ok;
}
static hb_position_t harfbuzzGetGlyphHorizontalAdvance(hb_font_t* hbFont, void* fontData, hb_codepoint_t glyph, void* userData)
{
MinikinPaint* paint = reinterpret_cast<MinikinPaint*>(fontData);
MinikinFont* font = paint->font;
float advance = font->GetHorizontalAdvance(glyph, *paint);
return 256 * advance + 0.5;
}
static hb_bool_t harfbuzzGetGlyphHorizontalOrigin(hb_font_t* hbFont, void* fontData, hb_codepoint_t glyph, hb_position_t* x, hb_position_t* y, void* userData)
{
// Just return true, following the way that Harfbuzz-FreeType
// implementation does.
return true;
}
hb_font_funcs_t* getHbFontFuncs() {
static hb_font_funcs_t* hbFontFuncs = 0;
if (hbFontFuncs == 0) {
hbFontFuncs = hb_font_funcs_create();
hb_font_funcs_set_glyph_func(hbFontFuncs, harfbuzzGetGlyph, 0, 0);
hb_font_funcs_set_glyph_h_advance_func(hbFontFuncs, harfbuzzGetGlyphHorizontalAdvance, 0, 0);
hb_font_funcs_set_glyph_h_origin_func(hbFontFuncs, harfbuzzGetGlyphHorizontalOrigin, 0, 0);
hb_font_funcs_make_immutable(hbFontFuncs);
}
return hbFontFuncs;
}
static hb_face_t* getHbFace(MinikinFont* minikinFont) {
HbFaceCache& cache = LayoutEngine::getInstance().hbFaceCache;
int32_t fontId = minikinFont->GetUniqueId();
hb_face_t* face = cache.mCache.get(fontId);
if (face == NULL) {
face = hb_face_create_for_tables(referenceTable, minikinFont, NULL);
cache.mCache.put(fontId, face);
}
return face;
}
static hb_font_t* create_hb_font(MinikinFont* minikinFont, MinikinPaint* minikinPaint) {
hb_face_t* face = getHbFace(minikinFont);
hb_font_t* font = hb_font_create(face);
hb_font_set_funcs(font, getHbFontFuncs(), minikinPaint, 0);
return font;
}
static float HBFixedToFloat(hb_position_t v)
{
return scalbnf (v, -8);
}
static hb_position_t HBFloatToFixed(float v)
{
return scalbnf (v, +8);
}
void Layout::dump() const {
for (size_t i = 0; i < mGlyphs.size(); i++) {
const LayoutGlyph& glyph = mGlyphs[i];
std::cout << glyph.glyph_id << ": " << glyph.x << ", " << glyph.y << std::endl;
}
}
int Layout::findFace(FakedFont face, LayoutContext* ctx) {
unsigned int ix;
for (ix = 0; ix < mFaces.size(); ix++) {
if (mFaces[ix].font == face.font) {
return ix;
}
}
mFaces.push_back(face);
// Note: ctx == NULL means we're copying from the cache, no need to create
// corresponding hb_font object.
if (ctx != NULL) {
hb_font_t* font = create_hb_font(face.font, &ctx->paint);
ctx->hbFonts.push_back(font);
}
return ix;
}
static hb_script_t codePointToScript(hb_codepoint_t codepoint) {
static hb_unicode_funcs_t* u = 0;
if (!u) {
u = hb_icu_get_unicode_funcs();
}
return hb_unicode_script(u, codepoint);
}
static hb_codepoint_t decodeUtf16(const uint16_t* chars, size_t len, ssize_t* iter) {
const uint16_t v = chars[(*iter)++];
// test whether v in (0xd800..0xdfff), lead or trail surrogate
if ((v & 0xf800) == 0xd800) {
// test whether v in (0xd800..0xdbff), lead surrogate
if (size_t(*iter) < len && (v & 0xfc00) == 0xd800) {
const uint16_t v2 = chars[(*iter)++];
// test whether v2 in (0xdc00..0xdfff), trail surrogate
if ((v2 & 0xfc00) == 0xdc00) {
// (0xd800 0xdc00) in utf-16 maps to 0x10000 in ucs-32
const hb_codepoint_t delta = (0xd800 << 10) + 0xdc00 - 0x10000;
return (((hb_codepoint_t)v) << 10) + v2 - delta;
}
(*iter) -= 1;
return 0xFFFDu;
} else {
return 0xFFFDu;
}
} else {
return v;
}
}
static hb_script_t getScriptRun(const uint16_t* chars, size_t len, ssize_t* iter) {
if (size_t(*iter) == len) {
return HB_SCRIPT_UNKNOWN;
}
uint32_t cp = decodeUtf16(chars, len, iter);
hb_script_t current_script = codePointToScript(cp);
for (;;) {
if (size_t(*iter) == len)
break;
const ssize_t prev_iter = *iter;
cp = decodeUtf16(chars, len, iter);
const hb_script_t script = codePointToScript(cp);
if (script != current_script) {
if (current_script == HB_SCRIPT_INHERITED ||
current_script == HB_SCRIPT_COMMON) {
current_script = script;
} else if (script == HB_SCRIPT_INHERITED ||
script == HB_SCRIPT_COMMON) {
continue;
} else {
*iter = prev_iter;
break;
}
}
}
if (current_script == HB_SCRIPT_INHERITED) {
current_script = HB_SCRIPT_COMMON;
}
return current_script;
}
/**
* For the purpose of layout, a word break is a boundary with no
* kerning or complex script processing. This is necessarily a
* heuristic, but should be accurate most of the time.
*/
static bool isWordBreak(int c) {
if (c == ' ' || (c >= 0x2000 && c <= 0x200a) || c == 0x3000) {
// spaces
return true;
}
if ((c >= 0x3400 && c <= 0x9fff)) {
// CJK ideographs (and yijing hexagram symbols)
return true;
}
// Note: kana is not included, as sophisticated fonts may kern kana
return false;
}
/**
* Return offset of previous word break. It is either < offset or == 0.
*/
static size_t getPrevWordBreak(const uint16_t* chars, size_t offset) {
if (offset == 0) return 0;
if (isWordBreak(chars[offset - 1])) {
return offset - 1;
}
for (size_t i = offset - 1; i > 0; i--) {
if (isWordBreak(chars[i - 1])) {
return i;
}
}
return 0;
}
/**
* Return offset of next word break. It is either > offset or == len.
*/
static size_t getNextWordBreak(const uint16_t* chars, size_t offset, size_t len) {
if (offset >= len) return len;
if (isWordBreak(chars[offset])) {
return offset + 1;
}
for (size_t i = offset + 1; i < len; i++) {
if (isWordBreak(chars[i])) {
return i;
}
}
return len;
}
void Layout::doLayout(const uint16_t* buf, size_t start, size_t count, size_t bufSize,
int bidiFlags, const FontStyle &style, const MinikinPaint &paint) {
AutoMutex _l(gMinikinLock);
LayoutContext ctx;
ctx.style = style;
ctx.paint = paint;
bool isRtl = (bidiFlags & kDirection_Mask) != 0;
bool doSingleRun = true;
reset();
mAdvances.resize(count, 0);
if (!(bidiFlags == kBidi_Force_LTR || bidiFlags == kBidi_Force_RTL)) {
UBiDi* bidi = ubidi_open();
if (bidi) {
UErrorCode status = U_ZERO_ERROR;
UBiDiLevel bidiReq = bidiFlags;
if (bidiFlags == kBidi_Default_LTR) {
bidiReq = UBIDI_DEFAULT_LTR;
} else if (bidiFlags == kBidi_Default_RTL) {
bidiReq = UBIDI_DEFAULT_RTL;
}
ubidi_setPara(bidi, buf, bufSize, bidiReq, NULL, &status);
if (U_SUCCESS(status)) {
int paraDir = ubidi_getParaLevel(bidi) & kDirection_Mask;
ssize_t rc = ubidi_countRuns(bidi, &status);
if (!U_SUCCESS(status) || rc < 0) {
ALOGW("error counting bidi runs, status = %d", status);
}
if (!U_SUCCESS(status) || rc <= 1) {
isRtl = (paraDir == kBidi_RTL);
} else {
doSingleRun = false;
// iterate through runs
for (ssize_t i = 0; i < (ssize_t)rc; i++) {
int32_t startRun = -1;
int32_t lengthRun = -1;
UBiDiDirection runDir = ubidi_getVisualRun(bidi, i, &startRun, &lengthRun);
if (startRun == -1 || lengthRun == -1) {
ALOGE("invalid visual run");
// skip the invalid run
continue;
}
int32_t endRun = std::min(startRun + lengthRun, int32_t(start + count));
startRun = std::max(startRun, int32_t(start));
lengthRun = endRun - startRun;
if (lengthRun > 0) {
isRtl = (runDir == UBIDI_RTL);
doLayoutRunCached(buf, startRun, lengthRun, bufSize, isRtl, &ctx,
start);
}
}
}
} else {
ALOGE("error calling ubidi_setPara, status = %d", status);
}
ubidi_close(bidi);
} else {
ALOGE("error creating bidi object");
}
}
if (doSingleRun) {
doLayoutRunCached(buf, start, count, bufSize, isRtl, &ctx, start);
}
ctx.clearHbFonts();
}
void Layout::doLayoutRunCached(const uint16_t* buf, size_t start, size_t count, size_t bufSize,
bool isRtl, LayoutContext* ctx, size_t dstStart) {
if (!isRtl) {
// left to right
size_t wordstart = start == bufSize ? start : getPrevWordBreak(buf, start + 1);
size_t wordend;
for (size_t iter = start; iter < start + count; iter = wordend) {
wordend = getNextWordBreak(buf, iter, bufSize);
size_t wordcount = std::min(start + count, wordend) - iter;
doLayoutWord(buf + wordstart, iter - wordstart, wordcount, wordend - wordstart,
isRtl, ctx, iter - dstStart);
wordstart = wordend;
}
} else {
// right to left
size_t wordstart;
size_t end = start + count;
size_t wordend = end == 0 ? 0 : getNextWordBreak(buf, end - 1, bufSize);
for (size_t iter = end; iter > start; iter = wordstart) {
wordstart = getPrevWordBreak(buf, iter);
size_t bufStart = std::max(start, wordstart);
doLayoutWord(buf + wordstart, bufStart - wordstart, iter - bufStart,
wordend - wordstart, isRtl, ctx, bufStart - dstStart);
wordend = wordstart;
}
}
}
void Layout::doLayoutWord(const uint16_t* buf, size_t start, size_t count, size_t bufSize,
bool isRtl, LayoutContext* ctx, size_t bufStart) {
LayoutCache& cache = LayoutEngine::getInstance().layoutCache;
LayoutCacheKey key(mCollection, ctx->paint, ctx->style, buf, start, count, bufSize, isRtl);
bool skipCache = ctx->paint.skipCache();
if (skipCache) {
Layout layout;
key.doLayout(&layout, ctx, mCollection);
appendLayout(&layout, bufStart);
} else {
Layout* layout = cache.get(key, ctx, mCollection);
appendLayout(layout, bufStart);
}
}
static void addFeatures(const string &str, vector<hb_feature_t>* features) {
if (!str.size())
return;
const char* start = str.c_str();
const char* end = start + str.size();
while (start < end) {
static hb_feature_t feature;
const char* p = strchr(start, ',');
if (!p)
p = end;
/* We do not allow setting features on ranges. As such, reject any
* setting that has non-universal range. */
if (hb_feature_from_string (start, p - start, &feature)
&& feature.start == 0 && feature.end == (unsigned int) -1)
features->push_back(feature);
start = p + 1;
}
}
void Layout::doLayoutRun(const uint16_t* buf, size_t start, size_t count, size_t bufSize,
bool isRtl, LayoutContext* ctx) {
hb_buffer_t* buffer = LayoutEngine::getInstance().hbBuffer;
vector<FontCollection::Run> items;
mCollection->itemize(buf + start, count, ctx->style, &items);
if (isRtl) {
std::reverse(items.begin(), items.end());
}
vector<hb_feature_t> features;
// Disable default-on non-required ligature features if letter-spacing
// See http://dev.w3.org/csswg/css-text-3/#letter-spacing-property
// "When the effective spacing between two characters is not zero (due to
// either justification or a non-zero value of letter-spacing), user agents
// should not apply optional ligatures."
if (fabs(ctx->paint.letterSpacing) > 0.03)
{
static const hb_feature_t no_liga = { HB_TAG('l', 'i', 'g', 'a'), 0, 0, ~0u };
static const hb_feature_t no_clig = { HB_TAG('c', 'l', 'i', 'g'), 0, 0, ~0u };
features.push_back(no_liga);
features.push_back(no_clig);
}
addFeatures(ctx->paint.fontFeatureSettings, &features);
double size = ctx->paint.size;
double scaleX = ctx->paint.scaleX;
double letterSpace = ctx->paint.letterSpacing * size * scaleX;
double letterSpaceHalfLeft;
if ((ctx->paint.paintFlags & LinearTextFlag) == 0) {
letterSpace = round(letterSpace);
letterSpaceHalfLeft = floor(letterSpace * 0.5);
} else {
letterSpaceHalfLeft = letterSpace * 0.5;
}
double letterSpaceHalfRight = letterSpace - letterSpaceHalfLeft;
float x = mAdvance;
float y = 0;
for (size_t run_ix = 0; run_ix < items.size(); run_ix++) {
FontCollection::Run &run = items[run_ix];
if (run.fakedFont.font == NULL) {
ALOGE("no font for run starting u+%04x length %d", buf[run.start], run.end - run.start);
continue;
}
int font_ix = findFace(run.fakedFont, ctx);
ctx->paint.font = mFaces[font_ix].font;
ctx->paint.fakery = mFaces[font_ix].fakery;
hb_font_t* hbFont = ctx->hbFonts[font_ix];
#ifdef VERBOSE
std::cout << "Run " << run_ix << ", font " << font_ix <<
" [" << run.start << ":" << run.end << "]" << std::endl;
#endif
hb_font_set_ppem(hbFont, size * scaleX, size);
hb_font_set_scale(hbFont, HBFloatToFixed(size * scaleX), HBFloatToFixed(size));
// TODO: if there are multiple scripts within a font in an RTL run,
// we need to reorder those runs. This is unlikely with our current
// font stack, but should be done for correctness.
ssize_t srunend;
for (ssize_t srunstart = run.start; srunstart < run.end; srunstart = srunend) {
srunend = srunstart;
hb_script_t script = getScriptRun(buf + start, run.end, &srunend);
hb_buffer_reset(buffer);
hb_buffer_set_script(buffer, script);
hb_buffer_set_direction(buffer, isRtl? HB_DIRECTION_RTL : HB_DIRECTION_LTR);
FontLanguage language = ctx->style.getLanguage();
if (language) {
string lang = language.getString();
hb_buffer_set_language(buffer, hb_language_from_string(lang.c_str(), -1));
}
hb_buffer_add_utf16(buffer, buf, bufSize, srunstart + start, srunend - srunstart);
hb_shape(hbFont, buffer, features.empty() ? NULL : &features[0], features.size());
unsigned int numGlyphs;
hb_glyph_info_t* info = hb_buffer_get_glyph_infos(buffer, &numGlyphs);
hb_glyph_position_t* positions = hb_buffer_get_glyph_positions(buffer, NULL);
if (numGlyphs)
{
mAdvances[info[0].cluster - start] += letterSpaceHalfLeft;
x += letterSpaceHalfLeft;
}
for (unsigned int i = 0; i < numGlyphs; i++) {
#ifdef VERBOSE
std::cout << positions[i].x_advance << " " << positions[i].y_advance << " " << positions[i].x_offset << " " << positions[i].y_offset << std::endl; std::cout << "DoLayout " << info[i].codepoint <<
": " << HBFixedToFloat(positions[i].x_advance) << "; " << positions[i].x_offset << ", " << positions[i].y_offset << std::endl;
#endif
if (i > 0 && info[i - 1].cluster != info[i].cluster) {
mAdvances[info[i - 1].cluster - start] += letterSpaceHalfRight;
mAdvances[info[i].cluster - start] += letterSpaceHalfLeft;
x += letterSpace;
}
hb_codepoint_t glyph_ix = info[i].codepoint;
float xoff = HBFixedToFloat(positions[i].x_offset);
float yoff = -HBFixedToFloat(positions[i].y_offset);
xoff += yoff * ctx->paint.skewX;
LayoutGlyph glyph = {font_ix, glyph_ix, x + xoff, y + yoff};
mGlyphs.push_back(glyph);
float xAdvance = HBFixedToFloat(positions[i].x_advance);
if ((ctx->paint.paintFlags & LinearTextFlag) == 0) {
xAdvance = roundf(xAdvance);
}
MinikinRect glyphBounds;
ctx->paint.font->GetBounds(&glyphBounds, glyph_ix, ctx->paint);
glyphBounds.offset(x + xoff, y + yoff);
mBounds.join(glyphBounds);
mAdvances[info[i].cluster - start] += xAdvance;
x += xAdvance;
}
if (numGlyphs)
{
mAdvances[info[numGlyphs - 1].cluster - start] += letterSpaceHalfRight;
x += letterSpaceHalfRight;
}
}
}
mAdvance = x;
}
void Layout::appendLayout(Layout* src, size_t start) {
int fontMapStack[16];
int* fontMap;
if (src->mFaces.size() < sizeof(fontMapStack) / sizeof(fontMapStack[0])) {
fontMap = fontMapStack;
} else {
fontMap = new int[src->mFaces.size()];
}
for (size_t i = 0; i < src->mFaces.size(); i++) {
int font_ix = findFace(src->mFaces[i], NULL);
fontMap[i] = font_ix;
}
int x0 = mAdvance;
for (size_t i = 0; i < src->mGlyphs.size(); i++) {
LayoutGlyph& srcGlyph = src->mGlyphs[i];
int font_ix = fontMap[srcGlyph.font_ix];
unsigned int glyph_id = srcGlyph.glyph_id;
float x = x0 + srcGlyph.x;
float y = srcGlyph.y;
LayoutGlyph glyph = {font_ix, glyph_id, x, y};
mGlyphs.push_back(glyph);
}
for (size_t i = 0; i < src->mAdvances.size(); i++) {
mAdvances[i + start] = src->mAdvances[i];
}
MinikinRect srcBounds(src->mBounds);
srcBounds.offset(x0, 0);
mBounds.join(srcBounds);
mAdvance += src->mAdvance;
if (fontMap != fontMapStack) {
delete[] fontMap;
}
}
void Layout::draw(Bitmap* surface, int x0, int y0, float size) const {
/*
TODO: redo as MinikinPaint settings
if (mProps.hasTag(minikinHinting)) {
int hintflags = mProps.value(minikinHinting).getIntValue();
if (hintflags & 1) load_flags |= FT_LOAD_NO_HINTING;
if (hintflags & 2) load_flags |= FT_LOAD_NO_AUTOHINT;
}
*/
for (size_t i = 0; i < mGlyphs.size(); i++) {
const LayoutGlyph& glyph = mGlyphs[i];
MinikinFont* mf = mFaces[glyph.font_ix].font;
MinikinFontFreeType* face = static_cast<MinikinFontFreeType*>(mf);
GlyphBitmap glyphBitmap;
MinikinPaint paint;
paint.size = size;
bool ok = face->Render(glyph.glyph_id, paint, &glyphBitmap);
printf("glyphBitmap.width=%d, glyphBitmap.height=%d (%d, %d) x=%f, y=%f, ok=%d\n",
glyphBitmap.width, glyphBitmap.height, glyphBitmap.left, glyphBitmap.top, glyph.x, glyph.y, ok);
if (ok) {
surface->drawGlyph(glyphBitmap,
x0 + int(floor(glyph.x + 0.5)), y0 + int(floor(glyph.y + 0.5)));
}
}
}
size_t Layout::nGlyphs() const {
return mGlyphs.size();
}
MinikinFont* Layout::getFont(int i) const {
const LayoutGlyph& glyph = mGlyphs[i];
return mFaces[glyph.font_ix].font;
}
FontFakery Layout::getFakery(int i) const {
const LayoutGlyph& glyph = mGlyphs[i];
return mFaces[glyph.font_ix].fakery;
}
unsigned int Layout::getGlyphId(int i) const {
const LayoutGlyph& glyph = mGlyphs[i];
return glyph.glyph_id;
}
float Layout::getX(int i) const {
const LayoutGlyph& glyph = mGlyphs[i];
return glyph.x;
}
float Layout::getY(int i) const {
const LayoutGlyph& glyph = mGlyphs[i];
return glyph.y;
}
float Layout::getAdvance() const {
return mAdvance;
}
void Layout::getAdvances(float* advances) {
memcpy(advances, &mAdvances[0], mAdvances.size() * sizeof(float));
}
void Layout::getBounds(MinikinRect* bounds) {
bounds->set(mBounds);
}
void Layout::purgeCaches() {
AutoMutex _l(gMinikinLock);
LayoutCache& layoutCache = LayoutEngine::getInstance().layoutCache;
layoutCache.clear();
HbFaceCache& hbCache = LayoutEngine::getInstance().hbFaceCache;
hbCache.mCache.clear();
}
} // namespace android