metaforce/specter/lib/TextView.cpp

293 lines
8.8 KiB
C++

#include "specter/RootView.hpp"
#include "specter/TextView.hpp"
#include "specter/ViewResources.hpp"
#include "athena/utf8proc.h"
#include "hecl/Pipeline.hpp"
#include <boo/graphicsdev/IGraphicsCommandQueue.hpp>
#include <freetype/internal/internal.h>
#include <freetype/internal/ftobjs.h>
namespace specter {
static logvisor::Module Log("specter::TextView");
void TextView::Resources::init(boo::IGraphicsDataFactory::Context& ctx, FontCache* fcache) {
m_fcache = fcache;
m_regular = hecl::conv->convert(ctx, Shader_SpecterTextViewShader{});
m_subpixel = hecl::conv->convert(ctx, Shader_SpecterTextViewShaderSubpixel{});
}
void TextView::_commitResources(size_t capacity) {
auto& res = rootView().viewRes();
auto fontTex = m_fontAtlas.texture(res.m_factory);
View::commitResources(res, [&](boo::IGraphicsDataFactory::Context& ctx) {
buildResources(ctx, res);
if (capacity) {
m_glyphBuf = res.m_textRes.m_glyphPool.allocateBlock(res.m_factory, capacity);
boo::ObjToken<boo::IShaderPipeline> shader;
if (m_fontAtlas.subpixel())
shader = res.m_textRes.m_subpixel;
else
shader = res.m_textRes.m_regular;
auto vBufInfo = m_glyphBuf.getBufferInfo();
auto uBufInfo = m_viewVertBlockBuf.getBufferInfo();
boo::ObjToken<boo::IGraphicsBuffer> uBufs[] = {uBufInfo.first.get()};
size_t uBufOffs[] = {size_t(uBufInfo.second)};
size_t uBufSizes[] = {sizeof(ViewBlock)};
boo::ObjToken<boo::ITexture> texs[] = {fontTex.get()};
m_shaderBinding = ctx.newShaderDataBinding(shader, {}, vBufInfo.first.get(), nullptr, 1, uBufs, nullptr, uBufOffs,
uBufSizes, 1, texs, nullptr, nullptr, 0, vBufInfo.second);
}
return true;
});
}
TextView::TextView(ViewResources& res, View& parentView, const FontAtlas& font, Alignment align, size_t capacity)
: View(res, parentView), m_capacity(capacity), m_fontAtlas(font), m_align(align) {
if (size_t(hecl::VertexBufferPool<RenderGlyph>::bucketCapacity()) < capacity)
Log.report(logvisor::Fatal, FMT_STRING("bucket overflow [{}/{}]"), capacity,
hecl::VertexBufferPool<RenderGlyph>::bucketCapacity());
_commitResources(0);
}
TextView::TextView(ViewResources& res, View& parentView, FontTag font, Alignment align, size_t capacity)
: TextView(res, parentView, res.m_textRes.m_fcache->lookupAtlas(font), align, capacity) {}
TextView::RenderGlyph::RenderGlyph(int& adv, const FontAtlas::Glyph& glyph, const zeus::CColor& defaultColor) {
m_pos[0].assign(adv + glyph.m_leftPadding, glyph.m_verticalOffset + glyph.m_height, 0.f);
m_pos[1].assign(adv + glyph.m_leftPadding, glyph.m_verticalOffset, 0.f);
m_pos[2].assign(adv + glyph.m_leftPadding + glyph.m_width, glyph.m_verticalOffset + glyph.m_height, 0.f);
m_pos[3].assign(adv + glyph.m_leftPadding + glyph.m_width, glyph.m_verticalOffset, 0.f);
m_uv[0].assign(glyph.m_uv[0], glyph.m_uv[1], glyph.m_layerFloat);
m_uv[1].assign(glyph.m_uv[0], glyph.m_uv[3], glyph.m_layerFloat);
m_uv[2].assign(glyph.m_uv[2], glyph.m_uv[1], glyph.m_layerFloat);
m_uv[3].assign(glyph.m_uv[2], glyph.m_uv[3], glyph.m_layerFloat);
m_color = defaultColor;
adv += glyph.m_advance;
}
int TextView::DoKern(FT_Pos val, const FontAtlas& atlas) {
if (!val)
return 0;
val = FT_MulFix(val, atlas.FT_Xscale());
FT_Pos orig_x = val;
/* we scale down kerning values for small ppem values */
/* to avoid that rounding makes them too big. */
/* `25' has been determined heuristically. */
if (atlas.FT_XPPem() < 25)
val = FT_MulDiv(orig_x, atlas.FT_XPPem(), 25);
return FT_PIX_ROUND(val) >> 6;
}
void TextView::typesetGlyphs(std::string_view str, const zeus::CColor& defaultColor) {
UTF8Iterator it(str.begin());
size_t charLen = str.size() ? std::min(it.countTo(str.end()), m_capacity) : 0;
if (charLen > m_curSize) {
m_curSize = charLen;
_commitResources(charLen);
}
uint32_t lCh = UINT32_MAX;
m_glyphs.clear();
m_glyphs.reserve(charLen);
m_glyphInfo.clear();
m_glyphInfo.reserve(charLen);
int adv = 0;
if (charLen) {
for (; it.iter() < str.end(); ++it) {
utf8proc_int32_t ch = *it;
if (ch == -1) {
Log.report(logvisor::Warning, FMT_STRING("invalid UTF-8 char"));
break;
}
if (ch == '\n' || ch == '\0')
break;
const FontAtlas::Glyph* glyph = m_fontAtlas.lookupGlyph(ch);
if (!glyph)
continue;
if (lCh != UINT32_MAX)
adv += DoKern(m_fontAtlas.lookupKern(lCh, glyph->m_glyphIdx), m_fontAtlas);
m_glyphs.emplace_back(adv, *glyph, defaultColor);
m_glyphInfo.emplace_back(ch, glyph->m_width, glyph->m_height, adv);
lCh = glyph->m_glyphIdx;
if (m_glyphs.size() == m_capacity)
break;
}
}
if (m_align == Alignment::Right) {
int adj = -adv;
for (RenderGlyph& g : m_glyphs) {
g.m_pos[0][0] += adj;
g.m_pos[1][0] += adj;
g.m_pos[2][0] += adj;
g.m_pos[3][0] += adj;
}
} else if (m_align == Alignment::Center) {
int adj = -adv / 2;
for (RenderGlyph& g : m_glyphs) {
g.m_pos[0][0] += adj;
g.m_pos[1][0] += adj;
g.m_pos[2][0] += adj;
g.m_pos[3][0] += adj;
}
}
m_width = adv;
invalidateGlyphs();
updateSize();
}
void TextView::typesetGlyphs(std::wstring_view str, const zeus::CColor& defaultColor) {
size_t charLen = std::min(str.size(), m_capacity);
if (charLen > m_curSize) {
m_curSize = charLen;
_commitResources(charLen);
}
uint32_t lCh = UINT32_MAX;
m_glyphs.clear();
m_glyphs.reserve(charLen);
m_glyphInfo.clear();
m_glyphInfo.reserve(charLen);
int adv = 0;
for (wchar_t ch : str) {
if (ch == L'\n')
break;
const FontAtlas::Glyph* glyph = m_fontAtlas.lookupGlyph(ch);
if (!glyph)
continue;
if (lCh != UINT32_MAX)
adv += DoKern(m_fontAtlas.lookupKern(lCh, glyph->m_glyphIdx), m_fontAtlas);
m_glyphs.emplace_back(adv, *glyph, defaultColor);
m_glyphInfo.emplace_back(ch, glyph->m_width, glyph->m_height, adv);
lCh = glyph->m_glyphIdx;
if (m_glyphs.size() == m_capacity)
break;
}
if (m_align == Alignment::Right) {
int adj = -adv;
for (RenderGlyph& g : m_glyphs) {
g.m_pos[0][0] += adj;
g.m_pos[1][0] += adj;
g.m_pos[2][0] += adj;
g.m_pos[3][0] += adj;
}
} else if (m_align == Alignment::Center) {
int adj = -adv / 2;
for (RenderGlyph& g : m_glyphs) {
g.m_pos[0][0] += adj;
g.m_pos[1][0] += adj;
g.m_pos[2][0] += adj;
g.m_pos[3][0] += adj;
}
}
m_width = adv;
invalidateGlyphs();
updateSize();
}
void TextView::colorGlyphs(const zeus::CColor& newColor) {
for (RenderGlyph& glyph : m_glyphs)
glyph.m_color = newColor;
invalidateGlyphs();
}
void TextView::colorGlyphsTypeOn(const zeus::CColor& newColor, float startInterval, float fadeTime) {}
void TextView::invalidateGlyphs() {
if (m_glyphBuf) {
RenderGlyph* out = m_glyphBuf.access();
size_t i = 0;
for (RenderGlyph& glyph : m_glyphs)
out[i++] = glyph;
}
}
void TextView::think() {}
void TextView::resized(const boo::SWindowRect& root, const boo::SWindowRect& sub) { View::resized(root, sub); }
void TextView::draw(boo::IGraphicsCommandQueue* gfxQ) {
View::draw(gfxQ);
if (m_glyphs.size()) {
gfxQ->setShaderDataBinding(m_shaderBinding);
gfxQ->drawInstances(0, 4, m_glyphs.size());
}
}
std::pair<int, int> TextView::queryGlyphDimensions(size_t pos) const {
if (pos >= m_glyphInfo.size())
Log.report(logvisor::Fatal, FMT_STRING("TextView::queryGlyphWidth({}) out of bounds: {}"), pos,
m_glyphInfo.size());
return m_glyphInfo[pos].m_dims;
}
size_t TextView::reverseSelectGlyph(int x) const {
size_t ret = 0;
size_t idx = 1;
int minDelta = abs(x);
for (const RenderGlyphInfo& info : m_glyphInfo) {
int thisDelta = abs(info.m_adv - x);
if (thisDelta < minDelta) {
minDelta = thisDelta;
ret = idx;
}
++idx;
}
return ret;
}
int TextView::queryReverseAdvance(size_t idx) const {
if (idx > m_glyphInfo.size())
Log.report(logvisor::Fatal, FMT_STRING("TextView::queryReverseGlyph({}) out of inclusive bounds: {}"), idx,
m_glyphInfo.size());
if (!idx)
return 0;
return m_glyphInfo[idx - 1].m_adv;
}
std::pair<size_t, size_t> TextView::queryWholeWordRange(size_t idx) const {
if (idx > m_glyphInfo.size())
Log.report(logvisor::Fatal, FMT_STRING("TextView::queryWholeWordRange({}) out of inclusive bounds: {}"), idx,
m_glyphInfo.size());
if (m_glyphInfo.empty())
return {0, 0};
if (idx == m_glyphInfo.size())
--idx;
size_t begin = idx;
while (begin > 0 && !m_glyphInfo[begin - 1].m_space)
--begin;
size_t end = idx;
while (end < m_glyphInfo.size() && !m_glyphInfo[end].m_space)
++end;
return {begin, end - begin};
}
} // namespace specter