/* Copyright 2020 Jaakko Keränen Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "text.h" #include "color.h" #include "metrics.h" #include "embedded.h" #include "app.h" #define STB_TRUETYPE_IMPLEMENTATION #include "../stb_truetype.h" #include #include #include #include #include #include #include #include #include #include #include iDeclareType(Font) iDeclareType(Glyph) iDeclareTypeConstructionArgs(Glyph, iChar ch) static const float contentScale_Text_ = 1.3f; int gap_Text; /* cf. gap_UI in metrics.h */ int enableHalfPixelGlyphs_Text = iTrue; /* debug setting */ int enableKerning_Text = iTrue; /* looking up kern pairs is slow */ struct Impl_Glyph { iHashNode node; uint32_t glyphIndex; const iFont *font; /* may come from symbols/emoji */ iRect rect[2]; /* zero and half pixel offset */ iInt2 d[2]; float advance; /* scaled */ }; void init_Glyph(iGlyph *d, iChar ch) { d->node.key = ch; d->glyphIndex = 0; d->font = NULL; d->rect[0] = zero_Rect(); d->rect[1] = zero_Rect(); d->advance = 0.0f; } void deinit_Glyph(iGlyph *d) { iUnused(d); } iChar char_Glyph(const iGlyph *d) { return d->node.key; } iDefineTypeConstructionArgs(Glyph, (iChar ch), ch) /*-----------------------------------------------------------------------------------------------*/ struct Impl_Font { iBlock * data; stbtt_fontinfo font; float scale; int height; int baseline; iHash glyphs; iBool isMonospaced; iBool manualKernOnly; enum iFontId symbolsFont; /* font to use for symbols */ uint32_t indexTable[128 - 32]; }; static iFont *font_Text_(enum iFontId id); static void init_Font(iFont *d, const iBlock *data, int height, enum iFontId symbolsFont) { init_Hash(&d->glyphs); d->data = NULL; d->height = height; iZap(d->font); stbtt_InitFont(&d->font, constData_Block(data), 0); d->scale = stbtt_ScaleForPixelHeight(&d->font, height); int ascent; stbtt_GetFontVMetrics(&d->font, &ascent, NULL, NULL); d->baseline = (int) ascent * d->scale; d->symbolsFont = symbolsFont; d->isMonospaced = iFalse; memset(d->indexTable, 0xff, sizeof(d->indexTable)); } static void deinit_Font(iFont *d) { iForEach(Hash, i, &d->glyphs) { delete_Glyph((iGlyph *) i.value); } deinit_Hash(&d->glyphs); delete_Block(d->data); } static uint32_t glyphIndex_Font_(iFont *d, iChar ch) { const size_t entry = ch - 32; if (entry < iElemCount(d->indexTable)) { if (d->indexTable[entry] == ~0u) { d->indexTable[entry] = stbtt_FindGlyphIndex(&d->font, ch); } return d->indexTable[entry]; } return stbtt_FindGlyphIndex(&d->font, ch); } iDeclareType(Text) iDeclareType(CacheRow) struct Impl_CacheRow { int height; iInt2 pos; }; struct Impl_Text { float contentFontSize; iFont fonts[max_FontId]; SDL_Renderer *render; SDL_Texture * cache; iInt2 cacheSize; int cacheRowAllocStep; int cacheBottom; iArray cacheRows; SDL_Palette * grayscale; iRegExp * ansiEscape; }; static iText text_; static void initFonts_Text_(iText *d) { const float textSize = fontSize_UI * d->contentFontSize; const float monoSize = fontSize_UI * d->contentFontSize / contentScale_Text_ * 0.866f; const struct { const iBlock *ttf; int size; int symbolsFont; } fontData[max_FontId] = { { &fontSourceSansProRegular_Embedded, fontSize_UI, defaultSymbols_FontId }, { &fontSourceSansProRegular_Embedded, fontSize_UI * 1.125f, defaultMediumSymbols_FontId }, { &fontFiraMonoRegular_Embedded, fontSize_UI * 0.866f, defaultSymbols_FontId }, { &fontNunitoRegular_Embedded, textSize, symbols_FontId }, { &fontFiraMonoRegular_Embedded, monoSize, smallSymbols_FontId }, { &fontFiraMonoRegular_Embedded, monoSize * 0.750f, smallSymbols_FontId }, { &fontNunitoRegular_Embedded, textSize * 1.333f, mediumSymbols_FontId }, { &fontNunitoLightItalic_Embedded, textSize, symbols_FontId }, { &fontNunitoExtraBold_Embedded, textSize, symbols_FontId }, { &fontNunitoExtraBold_Embedded, textSize * 1.333f, mediumSymbols_FontId }, { &fontNunitoExtraBold_Embedded, textSize * 1.666f, largeSymbols_FontId }, { &fontNunitoExtraBold_Embedded, textSize * 2.000f, hugeSymbols_FontId }, { &fontNunitoExtraLight_Embedded, textSize * 1.666f, largeSymbols_FontId }, { &fontSymbola_Embedded, fontSize_UI, defaultSymbols_FontId }, { &fontSymbola_Embedded, fontSize_UI * 1.125f, defaultMediumSymbols_FontId }, { &fontSymbola_Embedded, textSize, symbols_FontId }, { &fontSymbola_Embedded, textSize * 1.333f, mediumSymbols_FontId }, { &fontSymbola_Embedded, textSize * 1.666f, largeSymbols_FontId }, { &fontSymbola_Embedded, textSize * 2.000f, hugeSymbols_FontId }, { &fontSymbola_Embedded, textSize * 0.866f, smallSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, fontSize_UI, defaultSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, fontSize_UI * 1.125f, defaultMediumSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, textSize, symbols_FontId }, { &fontNotoEmojiRegular_Embedded, textSize * 1.333f, mediumSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, textSize * 1.666f, largeSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, textSize * 2.000f, hugeSymbols_FontId }, { &fontNotoEmojiRegular_Embedded, textSize * 0.866f, smallSymbols_FontId }, }; iForIndices(i, fontData) { iFont *font = &d->fonts[i]; init_Font(font, fontData[i].ttf, fontData[i].size, fontData[i].symbolsFont); if (fontData[i].ttf == &fontFiraMonoRegular_Embedded) { font->isMonospaced = iTrue; } if (i == default_FontId || i == defaultMedium_FontId) { font->manualKernOnly = iTrue; } } gap_Text = iRound(gap_UI * d->contentFontSize); } static void deinitFonts_Text_(iText *d) { iForIndices(i, d->fonts) { deinit_Font(&d->fonts[i]); } } static void initCache_Text_(iText *d) { init_Array(&d->cacheRows, sizeof(iCacheRow)); const int textSize = d->contentFontSize * fontSize_UI; iAssert(textSize > 0); const iInt2 cacheDims = init_I2(16, 80); d->cacheSize = mul_I2(cacheDims, init1_I2(iMax(textSize, fontSize_UI))); SDL_RendererInfo renderInfo; SDL_GetRendererInfo(d->render, &renderInfo); if (renderInfo.max_texture_height > 0 && d->cacheSize.y > renderInfo.max_texture_height) { d->cacheSize.y = renderInfo.max_texture_height; d->cacheSize.x = renderInfo.max_texture_width; } d->cacheRowAllocStep = iMax(2, textSize / 6); /* Allocate initial (empty) rows. These will be assigned actual locations in the cache once at least one glyph is stored. */ for (int h = d->cacheRowAllocStep; h <= 2 * textSize; h += d->cacheRowAllocStep) { pushBack_Array(&d->cacheRows, &(iCacheRow){ .height = 0 }); } d->cacheBottom = 0; d->cache = SDL_CreateTexture(d->render, SDL_PIXELFORMAT_RGBA4444, SDL_TEXTUREACCESS_STATIC | SDL_TEXTUREACCESS_TARGET, d->cacheSize.x, d->cacheSize.y); SDL_SetTextureBlendMode(d->cache, SDL_BLENDMODE_BLEND); } static void deinitCache_Text_(iText *d) { deinit_Array(&d->cacheRows); SDL_DestroyTexture(d->cache); } void init_Text(SDL_Renderer *render) { iText *d = &text_; d->contentFontSize = contentScale_Text_; d->ansiEscape = new_RegExp("\\[([0-9;]+)m", 0); d->render = render; /* A grayscale palette for rasterized glyphs. */ { SDL_Color colors[256]; for (int i = 0; i < 256; ++i) { colors[i] = (SDL_Color){ 255, 255, 255, i }; } d->grayscale = SDL_AllocPalette(256); SDL_SetPaletteColors(d->grayscale, colors, 0, 256); } initCache_Text_(d); initFonts_Text_(d); } void deinit_Text(void) { iText *d = &text_; SDL_FreePalette(d->grayscale); deinitFonts_Text_(d); deinitCache_Text_(d); d->render = NULL; iRelease(d->ansiEscape); } void setContentFontSize_Text(float fontSizeFactor) { fontSizeFactor *= contentScale_Text_; iAssert(fontSizeFactor > 0); if (iAbs(text_.contentFontSize - fontSizeFactor) > 0.001f) { text_.contentFontSize = fontSizeFactor; resetFonts_Text(); } } void resetFonts_Text(void) { iText *d = &text_; deinitFonts_Text_(d); deinitCache_Text_(d); initCache_Text_(d); initFonts_Text_(d); } iLocalDef iFont *font_Text_(enum iFontId id) { return &text_.fonts[id]; } static void freeBmp_(void *ptr) { stbtt_FreeBitmap(ptr, NULL); } static SDL_Surface *rasterizeGlyph_Font_(const iFont *d, uint32_t glyphIndex, float xShift) { int w, h; uint8_t *bmp = stbtt_GetGlyphBitmapSubpixel( &d->font, d->scale, d->scale, xShift, 0.0f, glyphIndex, &w, &h, 0, 0); /* Note: `bmp` must be freed afterwards. */ collect_Garbage(bmp, freeBmp_); SDL_Surface *surface8 = SDL_CreateRGBSurfaceWithFormatFrom(bmp, w, h, 8, w, SDL_PIXELFORMAT_INDEX8); SDL_SetSurfacePalette(surface8, text_.grayscale); SDL_PixelFormat *fmt = SDL_AllocFormat(SDL_PIXELFORMAT_RGBA8888); SDL_Surface *surface = SDL_ConvertSurface(surface8, fmt, 0); SDL_FreeFormat(fmt); SDL_FreeSurface(surface8); return surface; } iLocalDef SDL_Rect sdlRect_(const iRect rect) { return (SDL_Rect){ rect.pos.x, rect.pos.y, rect.size.x, rect.size.y }; } iLocalDef iCacheRow *cacheRow_Text_(iText *d, int height) { return at_Array(&d->cacheRows, (height - 1) / d->cacheRowAllocStep); } static iInt2 assignCachePos_Text_(iText *d, iInt2 size) { iCacheRow *cur = cacheRow_Text_(d, size.y); if (cur->height == 0) { /* Begin a new row height. */ cur->height = (1 + (size.y - 1) / d->cacheRowAllocStep) * d->cacheRowAllocStep; cur->pos.y = d->cacheBottom; d->cacheBottom = cur->pos.y + cur->height; } iAssert(cur->height >= size.y); /* TODO: Automatically enlarge the cache if running out of space? Maybe make it paged, but beware of texture swapping too often inside a text string. */ if (cur->pos.x + size.x > d->cacheSize.x) { /* Does not fit on this row, advance to a new location in the cache. */ cur->pos.y = d->cacheBottom; cur->pos.x = 0; d->cacheBottom += cur->height; iAssert(d->cacheBottom <= d->cacheSize.y); } const iInt2 assigned = cur->pos; cur->pos.x += size.x; return assigned; } static void cache_Font_(iFont *d, iGlyph *glyph, int hoff) { iText *txt = &text_; SDL_Renderer *render = txt->render; SDL_Texture *tex = NULL; SDL_Surface *surface = NULL; const iChar ch = char_Glyph(glyph); iRect *glRect = &glyph->rect[hoff]; /* Rasterize the glyph using stbtt. */ { surface = rasterizeGlyph_Font_(d, glyph->glyphIndex, hoff * 0.5f); if (hoff == 0) { int adv; stbtt_GetGlyphHMetrics(&d->font, glyph->glyphIndex, &adv, NULL); glyph->advance = d->scale * adv; } stbtt_GetGlyphBitmapBoxSubpixel(&d->font, glyph->glyphIndex, d->scale, d->scale, hoff * 0.5f, 0.0f, &glyph->d[hoff].x, &glyph->d[hoff].y, NULL, NULL); tex = SDL_CreateTextureFromSurface(render, surface); SDL_SetTextureBlendMode(tex, SDL_BLENDMODE_NONE); glRect->size = init_I2(surface->w, surface->h); } /* Determine placement in the glyph cache texture, advancing in rows. */ glRect->pos = assignCachePos_Text_(txt, glRect->size); SDL_Texture *oldTarget = SDL_GetRenderTarget(render); SDL_SetRenderTarget(render, txt->cache); const SDL_Rect dstRect = sdlRect_(*glRect); SDL_RenderCopy(render, tex, &(SDL_Rect){ 0, 0, dstRect.w, dstRect.h }, &dstRect); SDL_SetRenderTarget(render, oldTarget); if (tex) { SDL_DestroyTexture(tex); iAssert(surface); SDL_FreeSurface(surface); } } iLocalDef iFont *characterFont_Font_(iFont *d, iChar ch, uint32_t *glyphIndex) { if ((*glyphIndex = glyphIndex_Font_(d, ch)) != 0) { return d; } /* Not defined in current font, try Noto Emoji (for selected characters). */ if ((ch >= 0x1f300 && ch < 0x1f600) || (ch >= 0x1f680 && ch <= 0x1f6c5)) { iFont *emoji = font_Text_(d->symbolsFont + fromSymbolsToEmojiOffset_FontId); if (emoji != d && (*glyphIndex = glyphIndex_Font_(emoji, ch)) != 0) { return emoji; } } /* Fall back to Symbola for anything else. */ iFont *font = font_Text_(d->symbolsFont); *glyphIndex = glyphIndex_Font_(font, ch); return font; } static const iGlyph *glyph_Font_(iFont *d, iChar ch) { /* It may actually come from a different font. */ uint32_t glyphIndex = 0; iFont *font = characterFont_Font_(d, ch, &glyphIndex); const void *node = value_Hash(&font->glyphs, ch); if (node) { return node; } iGlyph *glyph = new_Glyph(ch); glyph->glyphIndex = glyphIndex; glyph->font = font; cache_Font_(font, glyph, 0); cache_Font_(font, glyph, 1); /* half-pixel offset */ insert_Hash(&font->glyphs, &glyph->node); return glyph; } enum iRunMode { measure_RunMode, measureNoWrap_RunMode, measureVisual_RunMode, /* actual visible bounding box of the glyph, e.g., for icons */ draw_RunMode, drawPermanentColor_RunMode }; static iChar nextChar_(const char **chPos, const char *end) { if (*chPos == end) { return 0; } iChar ch; int len = decodeBytes_MultibyteChar(*chPos, end - *chPos, &ch); if (len <= 0) { (*chPos)++; /* skip it */ return 0; } (*chPos) += len; return ch; } iLocalDef iBool isWrapBoundary_(iChar a, iChar b) { if (b == '/' || b == '-' || b == ',' || b == ';' || b == ':') { return iTrue; } return !isSpace_Char(a) && isSpace_Char(b); } iLocalDef iBool isMeasuring_(enum iRunMode mode) { return mode == measure_RunMode || mode == measureNoWrap_RunMode || mode == measureVisual_RunMode; } static iRect run_Font_(iFont *d, enum iRunMode mode, iRangecc text, size_t maxLen, iInt2 pos, int xposLimit, const char **continueFrom_out, int *runAdvance_out) { iRect bounds = zero_Rect(); const iInt2 orig = pos; float xpos = pos.x; float xposMax = xpos; float monoAdvance = 0; iAssert(xposLimit == 0 || isMeasuring_(mode)); const char *lastWordEnd = text.start; if (continueFrom_out) { *continueFrom_out = text.end; } iChar prevCh = 0; if (d->isMonospaced) { monoAdvance = glyph_Font_(d, 'M')->advance; } for (const char *chPos = text.start; chPos != text.end; ) { iAssert(chPos < text.end); const char *currentPos = chPos; if (*chPos == 0x1b) { /* ANSI escape. */ chPos++; iRegExpMatch m; init_RegExpMatch(&m); if (match_RegExp(text_.ansiEscape, chPos, text.end - chPos, &m)) { if (mode == draw_RunMode) { /* Change the color. */ const iColor clr = ansi_Color(capturedRange_RegExpMatch(&m, 1), tmParagraph_ColorId); SDL_SetTextureColorMod(text_.cache, clr.r, clr.g, clr.b); } chPos = end_RegExpMatch(&m); continue; } } iChar ch = nextChar_(&chPos, text.end); if (ch == variationSelectorEmoji_Char) { /* TODO: Should peek ahead for this and prefer the Emoji font. */ ch = nextChar_(&chPos, text.end); /* just ignore */ } /* Special instructions. */ { if (ch == '\n') { xpos = pos.x; pos.y += d->height; prevCh = ch; continue; } if (ch == '\r') { const iChar esc = nextChar_(&chPos, text.end); if (mode == draw_RunMode) { const iColor clr = get_Color(esc - asciiBase_ColorEscape); SDL_SetTextureColorMod(text_.cache, clr.r, clr.g, clr.b); } prevCh = 0; continue; } } const iGlyph *glyph = glyph_Font_(d, ch); int x1 = xpos; const int hoff = enableHalfPixelGlyphs_Text ? (xpos - x1 > 0.5f ? 1 : 0) : 0; int x2 = x1 + glyph->rect[hoff].size.x; /* Out of the allotted space? */ if (xposLimit > 0 && x2 > xposLimit) { if (lastWordEnd != text.start) { *continueFrom_out = lastWordEnd; } else { *continueFrom_out = currentPos; /* forced break */ } break; } const SDL_Rect dst = { x1 + glyph->d[hoff].x, pos.y + glyph->font->baseline + glyph->d[hoff].y, glyph->rect[hoff].size.x, glyph->rect[hoff].size.y }; /* Update the bounding box. */ if (mode == measureVisual_RunMode) { if (isEmpty_Rect(bounds)) { bounds = init_Rect(dst.x, dst.y, dst.w, dst.h); } else { bounds = union_Rect(bounds, init_Rect(dst.x, dst.y, dst.w, dst.h)); } } else { bounds.size.x = iMax(bounds.size.x, x2 - orig.x); bounds.size.y = iMax(bounds.size.y, pos.y + glyph->font->height - orig.y); } if (!isMeasuring_(mode)) { SDL_RenderCopy(text_.render, text_.cache, (const SDL_Rect *) &glyph->rect[hoff], &dst); } /* Symbols and emojis are NOT monospaced, so must conform when the primary font is monospaced. */ xpos += (d->isMonospaced && glyph->font != d ? monoAdvance : glyph->advance); xposMax = iMax(xposMax, xpos); if (continueFrom_out && (mode == measureNoWrap_RunMode || isWrapBoundary_(prevCh, ch))) { lastWordEnd = chPos; } /* Check the next character. */ if (!d->isMonospaced && glyph->font == d) { /* TODO: No need to decode the next char twice; check this on the next iteration. */ const char *peek = chPos; const iChar next = nextChar_(&peek, text.end); #if 0 if (ch == '/' && next == '/') { /* Manual kerning for double-slash. */ xpos -= glyph->rect[hoff].size.x * 0.5f; } else #endif #if defined (LAGRANGE_ENABLE_KERNING) if (enableKerning_Text && !d->manualKernOnly && next) { xpos += d->scale * stbtt_GetGlyphKernAdvance(&d->font, glyph->glyphIndex, next); } #endif } prevCh = ch; if (--maxLen == 0) { break; } } if (runAdvance_out) { *runAdvance_out = xposMax - orig.x; } return bounds; } int lineHeight_Text(int fontId) { return text_.fonts[fontId].height; } iInt2 measureRange_Text(int fontId, iRangecc text) { if (isEmpty_Range(&text)) { return init_I2(0, lineHeight_Text(fontId)); } return run_Font_(&text_.fonts[fontId], measure_RunMode, text, iInvalidSize, zero_I2(), 0, NULL, NULL).size; } iRect visualBounds_Text(int fontId, iRangecc text) { return run_Font_( font_Text_(fontId), measureVisual_RunMode, text, iInvalidSize, zero_I2(), 0, NULL, NULL); } iInt2 measure_Text(int fontId, const char *text) { return measureRange_Text(fontId, range_CStr(text)); } iInt2 advanceRange_Text(int fontId, iRangecc text) { int advance; const int height = run_Font_(&text_.fonts[fontId], measure_RunMode, text, iInvalidSize, zero_I2(), 0, NULL, &advance) .size.y; return init_I2(advance, height); } iInt2 tryAdvance_Text(int fontId, iRangecc text, int width, const char **endPos) { int advance; const int height = run_Font_(&text_.fonts[fontId], measure_RunMode, text, iInvalidSize, zero_I2(), width, endPos, &advance) .size.y; return init_I2(advance, height); } iInt2 tryAdvanceNoWrap_Text(int fontId, iRangecc text, int width, const char **endPos) { int advance; const int height = run_Font_(&text_.fonts[fontId], measureNoWrap_RunMode, text, iInvalidSize, zero_I2(), width, endPos, &advance) .size.y; return init_I2(advance, height); } iInt2 advance_Text(int fontId, const char *text) { return advanceRange_Text(fontId, range_CStr(text)); } iInt2 advanceN_Text(int fontId, const char *text, size_t n) { if (n == 0) { return init_I2(0, lineHeight_Text(fontId)); } int advance; run_Font_( &text_.fonts[fontId], measure_RunMode, range_CStr(text), n, zero_I2(), 0, NULL, &advance); return init_I2(advance, lineHeight_Text(fontId)); } static void draw_Text_(int fontId, iInt2 pos, int color, iRangecc text) { iText *d = &text_; const iColor clr = get_Color(color & mask_ColorId); SDL_SetTextureColorMod(d->cache, clr.r, clr.g, clr.b); run_Font_(&d->fonts[fontId], color & permanent_ColorId ? drawPermanentColor_RunMode : draw_RunMode, text, iInvalidSize, pos, 0, NULL, NULL); } void drawAlign_Text(int fontId, iInt2 pos, int color, enum iAlignment align, const char *text, ...) { iBlock chars; init_Block(&chars, 0); { va_list args; va_start(args, text); vprintf_Block(&chars, text, args); va_end(args); } if (align == center_Alignment) { pos.x -= measure_Text(fontId, cstr_Block(&chars)).x / 2; } else if (align == right_Alignment) { pos.x -= measure_Text(fontId, cstr_Block(&chars)).x; } draw_Text_(fontId, pos, color, range_Block(&chars)); deinit_Block(&chars); } void draw_Text(int fontId, iInt2 pos, int color, const char *text, ...) { iBlock chars; init_Block(&chars, 0); { va_list args; va_start(args, text); vprintf_Block(&chars, text, args); va_end(args); } draw_Text_(fontId, pos, color, range_Block(&chars)); deinit_Block(&chars); } void drawString_Text(int fontId, iInt2 pos, int color, const iString *text) { draw_Text_(fontId, pos, color, range_String(text)); } void drawRange_Text(int fontId, iInt2 pos, int color, iRangecc text) { draw_Text_(fontId, pos, color, text); } void drawCentered_Text(int fontId, iRect rect, iBool alignVisual, int color, const char *format, ...) { iBlock chars; init_Block(&chars, 0); { va_list args; va_start(args, format); vprintf_Block(&chars, format, args); va_end(args); } const iRangecc text = range_Block(&chars); iRect textBounds = alignVisual ? visualBounds_Text(fontId, text) : (iRect){ zero_I2(), advanceRange_Text(fontId, text) }; textBounds.pos = sub_I2(mid_Rect(rect), mid_Rect(textBounds)); draw_Text_(fontId, textBounds.pos, color, text); deinit_Block(&chars); } SDL_Texture *glyphCache_Text(void) { return text_.cache; } static void freeBitmap_(void *ptr) { stbtt_FreeBitmap(ptr, NULL); } iString *renderBlockChars_Text(const iBlock *fontData, int height, enum iTextBlockMode mode, const iString *text) { iBeginCollect(); stbtt_fontinfo font; iZap(font); stbtt_InitFont(&font, constData_Block(fontData), 0); int ascent; stbtt_GetFontVMetrics(&font, &ascent, NULL, NULL); iDeclareType(CharBuf); struct Impl_CharBuf { uint8_t *pixels; iInt2 size; int dy; int advance; }; iArray * chars = collectNew_Array(sizeof(iCharBuf)); int pxRatio = (mode == quadrants_TextBlockMode ? 2 : 1); int pxHeight = height * pxRatio; const float scale = stbtt_ScaleForPixelHeight(&font, pxHeight); const float xScale = scale * 2; /* character aspect ratio */ const int baseline = ascent * scale; int width = 0; size_t strRemain = length_String(text); iConstForEach(String, i, text) { if (!strRemain) break; if (i.value == variationSelectorEmoji_Char) { strRemain--; continue; } iCharBuf buf; buf.pixels = stbtt_GetCodepointBitmap( &font, xScale, scale, i.value, &buf.size.x, &buf.size.y, 0, &buf.dy); stbtt_GetCodepointHMetrics(&font, i.value, &buf.advance, NULL); buf.advance *= xScale; if (!isSpace_Char(i.value)) { if (mode == quadrants_TextBlockMode) { buf.advance = (buf.size.x - 1) / 2 * 2 + 2; } else { buf.advance = buf.size.x + 1; } } pushBack_Array(chars, &buf); collect_Garbage(buf.pixels, freeBitmap_); width += buf.advance; strRemain--; } const size_t len = (mode == quadrants_TextBlockMode ? height * ((width + 1) / 2 + 1) : (height * (width + 1))); iChar *outBuf = iCollectMem(malloc(sizeof(iChar) * len)); for (size_t i = 0; i < len; ++i) { outBuf[i] = 0x20; } iChar *outPos = outBuf; for (int y = 0; y < pxHeight; y += pxRatio) { const iCharBuf *ch = constData_Array(chars); int lx = 0; for (int x = 0; x < width; x += pxRatio, lx += pxRatio) { if (lx >= ch->advance) { ch++; lx = 0; } const int ly = y - baseline - ch->dy; if (mode == quadrants_TextBlockMode) { #define checkPixel_(offx, offy) \ (lx + offx < ch->size.x && ly + offy < ch->size.y && ly + offy >= 0 ? \ ch->pixels[(lx + offx) + (ly + offy) * ch->size.x] > 155 \ : iFalse) const int mask = (checkPixel_(0, 0) ? 1 : 0) | (checkPixel_(1, 0) ? 2 : 0) | (checkPixel_(0, 1) ? 4 : 0) | (checkPixel_(1, 1) ? 8 : 0); #undef checkPixel_ static const iChar blocks[16] = { 0x0020, 0x2598, 0x259D, 0x2580, 0x2596, 0x258C, 0x259E, 0x259B, 0x2597, 0x259A, 0x2590, 0x259C, 0x2584, 0x2599, 0x259F, 0x2588 }; *outPos++ = blocks[mask]; } else { static const iChar shades[5] = { 0x0020, 0x2591, 0x2592, 0x2593, 0x2588 }; *outPos++ = shades[lx < ch->size.x && ly < ch->size.y && ly >= 0 ? ch->pixels[lx + ly * ch->size.x] * 5 / 256 : 0]; } } *outPos++ = '\n'; } /* We could compose the lines separately, but we'd still need to convert them to Strings individually to trim them. */ iStringList *lines = split_String(collect_String(newUnicodeN_String(outBuf, len)), "\n"); while (!isEmpty_StringList(lines) && isEmpty_String(collect_String(trimmed_String(at_StringList(lines, 0))))) { popFront_StringList(lines); } while (!isEmpty_StringList(lines) && isEmpty_String(collect_String(trimmed_String( at_StringList(lines, size_StringList(lines) - 1))))) { popBack_StringList(lines); } iEndCollect(); return joinCStr_StringList(iClob(lines), "\n"); } /*-----------------------------------------------------------------------------------------------*/ iDefineTypeConstructionArgs(TextBuf, (int font, const char *text), font, text) void init_TextBuf(iTextBuf *d, int font, const char *text) { SDL_Renderer *render = text_.render; d->size = advance_Text(font, text); d->texture = SDL_CreateTexture(render, SDL_PIXELFORMAT_RGBA4444, SDL_TEXTUREACCESS_STATIC | SDL_TEXTUREACCESS_TARGET, d->size.x, d->size.y); SDL_SetTextureBlendMode(d->texture, SDL_BLENDMODE_BLEND); SDL_Texture *oldTarget = SDL_GetRenderTarget(render); SDL_SetRenderTarget(render, d->texture); draw_Text_(font, zero_I2(), white_ColorId, range_CStr(text)); SDL_SetRenderTarget(render, oldTarget); } void deinit_TextBuf(iTextBuf *d) { SDL_DestroyTexture(d->texture); } void draw_TextBuf(const iTextBuf *d, iInt2 pos, int color) { const iColor clr = get_Color(color); SDL_SetTextureColorMod(d->texture, clr.r, clr.g, clr.b); SDL_RenderCopy(text_.render, d->texture, &(SDL_Rect){ 0, 0, d->size.x, d->size.y }, &(SDL_Rect){ pos.x, pos.y, d->size.x, d->size.y }); }