/* MIT License Copyright (c) 2024 - 2025 René Amthor (tobid7) Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: 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 AUTHORS OR COPYRIGHT HOLDERS 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. */ #include #include #include #include #include #include #include namespace PD::LI { void Font::LoadTTF(const std::string& path, int height) { sysfont = false; TT::Scope st("LI_LoadTTF_" + path); pixel_height = height; int quad = height * 16; stbtt_fontinfo inf; std::ifstream loader(path, std::ios::binary); if (!loader.is_open()) return; loader.seekg(0, std::ios::end); size_t len = loader.tellg(); loader.seekg(0, std::ios::beg); unsigned char* buffer = new unsigned char[len]; loader.read(reinterpret_cast(buffer), len); loader.close(); stbtt_InitFont(&inf, buffer, 0); std::vector font_tex(quad * quad); float scale = stbtt_ScaleForPixelHeight(&inf, pixel_height); int ascent, descent, lineGap; stbtt_GetFontVMetrics(&inf, &ascent, &descent, &lineGap); int baseline = static_cast(ascent * scale); std::map buf_cache; auto tex = Texture::New(); vec2 off; for (u32 ii = 0x0000; ii < 0xFFFF; ii++) { int i = stbtt_FindGlyphIndex(&inf, ii); if (i == 0) { continue; } if (stbtt_IsGlyphEmpty(&inf, i)) { continue; } Codepoint c; int w = 0, h = 0, xo = 0, yo = 0; unsigned char* bitmap = stbtt_GetCodepointBitmap(&inf, scale, scale, i, &w, &h, &xo, &yo); int x0, y0, x1, y1; stbtt_GetCodepointBitmapBox(&inf, i, scale, scale, &x0, &y0, &x1, &y1); u32 hashed_map = IO::HashMemory(std::vector(bitmap, bitmap + (w * h))); if (buf_cache.find(hashed_map) != buf_cache.end()) { c = GetCodepoint(buf_cache[hashed_map]); c.cp(i); cpmap[i] = c; free(bitmap); continue; } else { buf_cache[hashed_map] = i; } if (off[0] + w > quad) { off[1] += pixel_height; off[0] = 0; } vec4 uvs; uvs[0] = static_cast(off.x() / (float)quad); uvs[1] = static_cast(1.f - (off.y() / (float)quad)); uvs[2] = static_cast((float)(off.x() + w) / (float)quad); uvs[3] = static_cast(1.f - (float)(off.y() + h) / (float)quad); c.uv(uvs); c.tex(tex); c.size(vec2(w, h)); c.off(baseline + yo); for (int y = 0; y < h; ++y) { for (int x = 0; x < w; ++x) { int map_pos = ((off[1] + y) * quad + (off[0] + x)); font_tex[map_pos] = bitmap[x + y * w]; } } free(bitmap); cpmap[i] = c; // Small Patch to avoid some possible artifacts off[0] += w + 1; if (off[0] + w > quad) { off[1] += pixel_height; if (off[1] + pixel_height > quad) { break; } off[0] = 0; } } tex->LoadPixels(font_tex, quad, quad, Texture::A8, Texture::LINEAR); textures.push_back(tex); } Font::Codepoint& Font::GetCodepoint(u32 cp) { auto res = cpmap.find(cp); if (res == cpmap.end()) { static Codepoint invalid; return invalid.invalid(true); } return res->second; } void Font::LoadSystemFont() { TT::Scope st("LI_SystemFont"); sysfont = true; fontEnsureMapped(); const auto fnt = fontGetSystemFont(); const auto fnt_info = fontGetInfo(fnt); const auto glyph_info = fontGetGlyphInfo(fnt); this->textures.resize(glyph_info->nSheets + 1); /// Modify the Pixel Height by 1.1f to fit the /// Size og ttf font Rendering pixel_height = glyph_info->cellHeight * 1.1f; for (size_t i = 0; i < glyph_info->nSheets; i++) { auto stex = Texture::New(); auto tx = new C3D_Tex; tx->data = fontGetGlyphSheetTex(fnt, i); tx->fmt = (GPU_TEXCOLOR)glyph_info->sheetFmt; tx->size = glyph_info->sheetSize; tx->width = glyph_info->sheetWidth; tx->height = glyph_info->sheetHeight; tx->param = GPU_TEXTURE_MAG_FILTER(GPU_LINEAR) | GPU_TEXTURE_MIN_FILTER(GPU_LINEAR) | GPU_TEXTURE_WRAP_S(GPU_REPEAT) | GPU_TEXTURE_WRAP_T(GPU_REPEAT); tx->border = 0xffffffff; tx->lodParam = 0; stex->LoadExternal(tx, vec2(tx->width, tx->height), vec4(0, 1, 1, 0)); stex->AutoUnLoad(false); textures[i] = stex; } std::vector charSet; for (auto cmap = fnt_info->cmap; cmap; cmap = cmap->next) { if (cmap->mappingMethod == CMAP_TYPE_DIRECT) { if (cmap->codeEnd >= cmap->codeBegin) { charSet.reserve(charSet.size() + cmap->codeEnd - cmap->codeBegin + 1); for (auto i = cmap->codeBegin; i <= cmap->codeEnd; ++i) { if (cmap->indexOffset + (i - cmap->codeBegin) == 0xFFFF) break; charSet.emplace_back(i); } } } else if (cmap->mappingMethod == CMAP_TYPE_TABLE) { if (cmap->codeEnd >= cmap->codeBegin) { charSet.reserve(charSet.size() + cmap->codeEnd - cmap->codeBegin + 1); for (auto i = cmap->codeBegin; i <= cmap->codeEnd; ++i) { if (cmap->indexTable[i - cmap->codeBegin] == 0xFFFF) continue; charSet.emplace_back(i); } } } else if (cmap->mappingMethod == CMAP_TYPE_SCAN) { charSet.reserve(charSet.size() + cmap->nScanEntries); for (unsigned i = 0; i < cmap->nScanEntries; ++i) { if (cmap->scanEntries[i].code >= cmap->codeBegin && cmap->scanEntries[i].code <= cmap->codeEnd) { if (cmap->scanEntries[i].glyphIndex != 0xFFFF) { charSet.emplace_back(cmap->scanEntries[i].code); } } } } else { continue; } } std::sort(charSet.begin(), charSet.end()); charSet.erase(std::unique(charSet.begin(), charSet.end())); for (auto cp : charSet) { int gidx = fontGlyphIndexFromCodePoint(fnt, cp); if (gidx >= 0xFFFF) continue; Codepoint codepoint; fontGlyphPos_s dat; fontCalcGlyphPos(&dat, fnt, gidx, GLYPH_POS_CALC_VTXCOORD, 1.f, 1.f); codepoint.cp(cp); codepoint.uv(vec4(dat.texcoord.left, dat.texcoord.top, dat.texcoord.right, dat.texcoord.bottom)); if (dat.sheetIndex < (int)textures.size()) { codepoint.tex(textures[dat.sheetIndex]); } else { codepoint.invalid(true); } codepoint.size(vec2(dat.vtxcoord.right, dat.vtxcoord.bottom)); codepoint.off(0); cpmap[cp] = codepoint; } } Renderer::Renderer(RenderFlags flags) { vertex_buf.resize(4 * 4096, Vertex()); index_buf.resize(6 * 4096, 0); /// Use 3ds u32 here dvlb = DVLB_ParseFile((uint32_t*)li7_shader, li7_shader_size); shaderProgramInit(&shader); shaderProgramSetVsh(&shader, &dvlb->DVLE[0]); uLoc_projection = shaderInstanceGetUniformLocation(shader.vertexShader, "projection"); AttrInfo_Init(&attr); AttrInfo_AddLoader(&attr, 0, GPU_FLOAT, 2); AttrInfo_AddLoader(&attr, 1, GPU_FLOAT, 2); AttrInfo_AddLoader(&attr, 2, GPU_UNSIGNED_BYTE, 4); // Precalculate Projection (Never changes) Mtx_OrthoTilt(&top_proj, 0.f, 400.f, 240.f, 0.f, 1.f, -1.f, false); Mtx_OrthoTilt(&bot_proj, 0.f, 320.f, 240.f, 0.f, 1.f, -1.f, false); std::vector pixels(16 * 16 * 4, 255); white = Texture::New(pixels, 16, 16); UseTex(white); // Not Loading as Systemfont is freezing // font = Font::New(); // font->LoadSystemFont(); } Renderer::~Renderer() { shaderProgramFree(&shader); DVLB_Free(dvlb); } void Renderer::StaticText::Setup(Renderer* ren, const vec2& pos, u32 clr, const std::string& text, LITextFlags flags, const vec2& box) { this->tdim = ren->GetTextDimensions(text); this->pos = pos; this->ren = ren; this->text = StaticObject::New(); /// Ensure that it also renders Out of Screen i guess ren->TextCommand(this->text->List(), pos, clr, text, flags | LITextFlags_RenderOOS, box); OptiCommandList(this->text->List()); } void Renderer::StaticText::Draw() { used = true; for (auto& it : text->List()) { ren->PushCommand(it); } text->ReCopy(); } void Renderer::StaticText::SetColor(u32 col) { text->ReColor(col); } void Renderer::StaticText::SetPos(const vec2& pos) { text->MoveIt(pos - this->pos); } void Renderer::StaticText::SetLayer(int layer) { text->ReLayer(layer); } bool Renderer::InBox(const vec2& pos, const vec2& szs, const vec4& rect) { return (pos[0] + szs[0] >= rect[0] && pos[1] + szs[1] >= rect[1] && pos[0] <= rect[2] && pos[1] <= rect[3]); } bool Renderer::InBox(const vec2& pos, const vec4& rect) { return (pos.x() > rect.x() && pos.x() < rect.x() + rect.z() && pos.y() > rect.y() && pos.y() < rect.y() + rect.w()); } bool Renderer::InBox(const vec2& alpha, const vec2& bravo, const vec2& charlie, const vec4& rect) { return ((alpha[0] < rect[2] && bravo[0] < rect[2] && charlie[0] < rect[2]) || (alpha[1] < rect[3] && bravo[1] < rect[3] && charlie[1] < rect[3]) || (alpha[0] > 0 && bravo[0] > 0 && charlie[0] > 0) || (alpha[1] > 0 && bravo[1] > 0 && charlie[1] > 0)); } void Renderer::RotateCorner(vec2& v, float s, float c) { float x = v[0] * c - v[1] * s; float y = v[1] * c + v[0] * s; v = vec2(x, y); } Rect Renderer::CreateRect(const vec2& pos, const vec2& size, float angle) { vec2 c = size * 0.5f; // Center vec2 corner[4] = { vec2(-c[0], -c[1]), vec2(-c[0] + size[0], -c[1]), vec2(-c[0], -c[1] + size[1]), vec2(-c[0] + size[0], -c[1] + size[1]), }; // Only rotate if required if (angle != 0.f) { float s = std::sin(angle); float co = std::cos(angle); for (int i = 0; i < 4; i++) { RotateCorner(corner[i], s, co); } } // Return Result return Rect(corner[0] + pos + c, corner[1] + pos + c, corner[2] + pos + c, corner[3] + pos + c); } Rect Renderer::CreateLine(const vec2& a, const vec2& b, int t) { // Usin g th evec maths api makes the code as short as it is vec2 dir = a - b; float len = dir.len(); vec2 unit_dir = dir / len; vec2 perpendicular(-unit_dir.y(), unit_dir.x()); vec2 off = perpendicular * ((float)t * 0.5f); return Rect(a + off, b + off, a - off, b - off); } void Renderer::OptiCommandList(std::vector& list) { std::sort(list.begin(), list.end(), [](Command::Ref a, Command::Ref b) { if (a->Layer() == b->Layer()) { if (a->Tex() == b->Tex()) { return a->Index() < b->Index(); } return a->Tex() < b->Tex(); // else } return a->Layer() < b->Layer(); // else }); } void Renderer::SetupCommand(Command::Ref cmd) { cmd->Index(cmd_idx++).Layer(current_layer).Tex(current_tex); } void Renderer::QuadCommand(Command::Ref cmd, const Rect& quad, const Rect& uv, u32 col) { cmd->PushIndex(0).PushIndex(1).PushIndex(2); cmd->PushIndex(0).PushIndex(2).PushIndex(3); cmd->PushVertex(Vertex(quad.BotRight(), uv.BotRight(), col)); cmd->PushVertex(Vertex(quad.TopRight(), uv.TopRight(), col)); cmd->PushVertex(Vertex(quad.TopLeft(), uv.TopLeft(), col)); cmd->PushVertex(Vertex(quad.BotLeft(), uv.BotLeft(), col)); } void Renderer::TriangleCommand(Command::Ref cmd, const vec2& a, const vec2& b, const vec2& c, u32 col) { cmd->Index(cmd_idx++).Layer(current_layer).Tex(current_tex); cmd->PushIndex(2).PushIndex(1).PushIndex(0); cmd->PushVertex(Vertex(a, vec2(0.f, 1.f), col)); cmd->PushVertex(Vertex(b, vec2(1.f, 1.f), col)); cmd->PushVertex(Vertex(c, vec2(1.f, 0.f), col)); } void Renderer::TextCommand(std::vector& cmds, const vec2& pos, u32 color, const std::string& text, LITextFlags flags, const vec2& box) { if (!font) { return; } vec2 off; float cfs = (default_font_h * text_size) / (float)font->PixelHeight(); float lh = (float)font->PixelHeight() * cfs; vec2 td; vec2 rpos = pos; vec2 rbox = box; if (flags & (LITextFlags_AlignMid | LITextFlags_AlignRight)) { td = GetTextDimensions(text); if (rbox[0] == 0.f) { rbox[0] = area_size.x(); } if (rbox[1] == 0.f) { rbox[1] = area_size.y(); } } if (flags & LITextFlags_AlignMid) { rpos = rbox * 0.5 - td * 0.5 + pos; } if (flags & LITextFlags_AlignRight) { rpos[0] = rpos[0] - td[0]; } std::vector lines; std::istringstream iss(text); std::string tmp; while (std::getline(iss, tmp)) { lines.push_back(tmp); } for (auto& it : lines) { if (flags & LITextFlags_Short) { vec2 tmp_dim; it = ShortText(it, box.x() - pos.x(), tmp_dim); } /// Well support OOS Rendering here as well /// Fixes UI7 Scroll back up bug if (rpos[1] + off[1] + lh < 0 && !(flags & LITextFlags_RenderOOS)) { off[1] += lh; continue; } else if (rpos[1] + off[1] > GetViewport().w() && !(flags & LITextFlags_RenderOOS)) { // Break cause next lines would be out of screen break; } auto wline = Strings::MakeWstring(it); auto cmd = Command::New(); current_tex = font->GetCodepoint(wline[0]).tex(); SetupCommand(cmd); cmd->Rendermode(RenderMode_Font); for (auto& jt : wline) { auto cp = font->GetCodepoint(jt); if (cp.invalid() && jt != '\n' && jt != '\t') { continue; } if (current_tex != cp.tex()) { cmds.push_back(cmd); cmd = Command::New(); current_tex = cp.tex(); SetupCommand(cmd); cmd->Rendermode(RenderMode_Font); } if (jt == '\t') { off[0] += 16 * cfs; } else { if (jt != ' ') { int lr = current_layer; if (flags & LITextFlags_Shaddow) { // Draw Rect rec = CreateRect( rpos + vec2(off[0] + 1, off[1] + (cp.off() * cfs)) + 1, cp.size() * cfs, 0.f); QuadCommand(cmd, rec, cp.uv(), 0xff111111); current_layer++; } // Draw Rect rec = CreateRect(rpos + off + vec2(0, (cp.off() * cfs)), cp.size() * cfs, 0.f); QuadCommand(cmd, rec, cp.uv(), color); current_layer = lr; } else { if (!font->SystemFont()) { off[0] += 2 * cfs; } } off[0] += cp.size().x() * cfs + 2 * cfs; } } cmds.push_back(cmd); off[1] += lh; off[0] = 0; } } vec4 Renderer::GetViewport() { return vec4(vec2(), screen->GetSize()); } std::string Renderer::ShortText(const std::string& text, int maxlen, vec2& newsize) { vec2 cdim; if (flags & RenderFlags_TMS) { auto e = tms.find(text); if (e != tms.end()) { e->second.TimeCreated(Sys::GetTime()); if (e->second.Optional()) { return e->second.Text(); } cdim = e->second.Size(); } } cdim = this->GetTextDimensions(text); if (cdim[0] < (float)maxlen) { return text; } std::string ext; /// Forgot why i called this var ending cause /// Its more a placeholder for removed content std::string ending = "..."; std::string cpy = text; std::string res; size_t extension = text.find_last_of('.'); if (extension != text.npos) { ext = text.substr(extension); cpy = text.substr(0, extension); maxlen -= GetTextDimensions(ext).x(); } maxlen -= GetTextDimensions(ending).x(); for (auto& it : cpy) { if (GetTextDimensions(res).x() > (float)maxlen) { res += ending; res += ext; newsize = GetTextDimensions(res); if (flags & RenderFlags_TMS) { auto& tmp = tms[text]; tmp.Text(res); tmp.Size(newsize); tmp.TimeCreated(Sys::GetTime()); tmp.Optional(true); } break; } res += it; } return res; } std::string Renderer::WrapText(const std::string& text, int maxlen, vec2& newsize) {} vec2 Renderer::GetTextDimensions(const std::string& text) { if (!font) { // No font no size (oder so) return vec2(); } // Handle TextMapSystem if (flags & RenderFlags_TMS) { auto ref = tms.find(text); if (ref != tms.end()) { ref->second.TimeCreated(Sys::GetTime()); return ref->second.Size(); } } // Use wstring for exemple for german äöü auto wtext = Strings::MakeWstring(text); // Create a temp position and offset as [0, 0] vec2 res; float x = 0; // Curent Font Scale float cfs = (default_font_h * text_size) / (float)font->PixelHeight(); float lh = (float)font->PixelHeight() * cfs; size_t index = 0; for (auto& it : wtext) { if (it == '\0') { break; } index++; auto cp = font->GetCodepoint(it); if (cp.invalid() && it != '\n' && it != '\t' && it != ' ') { continue; } switch (it) { case '\n': res[1] += lh; res[0] = std::max(res[0], x); x = 0.f; break; case '\t': x += 16 * cfs; break; case ' ': if (!font->SystemFont()) { x += 2 * cfs; } // Fall trough here to get the same result as in // TextCommand if/else Section default: x += cp.size().x() * cfs; if (index != wtext.size()) { x += 2 * cfs; } break; } } res[0] = std::max(res[0], x); res[1] += lh; if (flags & RenderFlags_TMS) { tms[text] = TextBox(res, Sys::GetTime()); } return res; } void Renderer::UpdateRenderMode(const RenderMode& mode) { C3D_TexEnv* env = C3D_GetTexEnv(0); switch (mode) { case RenderMode_Font: /// Sets Only Alpha Using the Color and Replase RGB with vertex color C3D_TexEnvInit(env); C3D_TexEnvSrc(env, C3D_RGB, GPU_PRIMARY_COLOR); C3D_TexEnvFunc(env, C3D_RGB, GPU_REPLACE); C3D_TexEnvSrc(env, C3D_Alpha, GPU_TEXTURE0); C3D_TexEnvFunc(env, C3D_Alpha, GPU_MODULATE); break; // Fall trough instead of defining twice case RenderMode_RGBA: default: /// Use Texture for RGBA and vertexcolor for visibility C3D_TexEnvInit(env); C3D_TexEnvSrc(env, C3D_Both, GPU_TEXTURE0); C3D_TexEnvFunc(env, C3D_Both, GPU_MODULATE); break; } } void Renderer::PrepareRender() { if (font_update) { tms.clear(); font_update = false; } C3D_FrameBegin(C3D_FRAME_SYNCDRAW); TT::Beg("LI_RenderAll"); vertex_idx = 0; index_idx = 0; vertices = 0; indices = 0; commands = 0; drawcalls = 0; C3D_BindProgram(&shader); C3D_SetAttrInfo(&attr); } void Renderer::FinalizeRender() { C3D_FrameEnd(0); TT::End("LI_RenderAll"); current_layer = 0; cmd_idx = 0; rot = 0.f; UseTex(); if (flags & RenderFlags_TMS) { std::vector rem; for (auto& it : tms) { if (Sys::GetTime() - it.second.TimeCreated() > 5) rem.push_back(it.first); } for (auto it : rem) tms.erase(it); } else { tms.clear(); } if (flags & RenderFlags_AST) { std::vector rem; for (auto it : ast) { if (!it.second->Used()) { rem.push_back(it.first); } it.second->SetUnused(); } for (auto& it : rem) { ast.erase(it); } } else { ast.clear(); } } void Renderer::Render(Screen::Ref s) { Assert(s.get(), "Expected Screen Address but got nullptr!"); s->Clear(); s->Use(); bool bot = s->ScreenType() == Screen::Bottom; C3D_FVUnifMtx4x4(GPU_VERTEX_SHADER, uLoc_projection, (bot ? &bot_proj : &top_proj)); C3D_DepthTest(false, GPU_GREATER, GPU_WRITE_ALL); UpdateRenderMode(RenderMode_RGBA); int total_vertices = 0; int total_indices = 0; auto& cmds = draw_list[Screen32(s)]; commands += cmds.size(); size_t index = 0; if (flags & RenderFlags_LRS) { OptiCommandList(cmds); } while (index < cmds.size()) { C3D_Tex* tex = cmds[index]->Tex()->GetTex(); auto mode = cmds[index]->Rendermode(); UpdateRenderMode(mode); u32 start_vtx = vertex_idx; u32 start_idx = index_idx; while (index < cmds.size() && cmds[index]->Tex()->GetTex() == tex && cmds[index]->Rendermode() == mode) { auto c = cmds[index]; // Indices for (size_t i = 0; i < c->IndexList().size(); i++) { index_buf[index_idx++] = vertex_idx + c->IndexList().at(i); } // Vertices for (size_t i = 0; i < c->VertexList().size(); i++) { vertex_buf[vertex_idx++] = c->VertexList().at(i); } index++; } C3D_TexBind(0, tex); auto bufInfo = C3D_GetBufInfo(); BufInfo_Init(bufInfo); BufInfo_Add(bufInfo, vertex_buf.data(), sizeof(Vertex), 3, 0x210); C3D_DrawElements(GPU_TRIANGLES, index_idx - start_idx, C3D_UNSIGNED_SHORT, index_buf.data() + start_idx); drawcalls++; total_vertices += vertex_idx - start_vtx; total_indices += index_idx - start_idx; } cmds.clear(); C3D_DepthTest(true, GPU_GREATER, GPU_WRITE_ALL); vertices += total_vertices; indices += total_indices; } void Renderer::DrawRect(const vec2& pos, const vec2& size, u32 color, const Rect& uv) { if (!InBox(pos, size, GetViewport())) { // Instand abort as it is out of screen return; } Rect rec = CreateRect(pos, size, rot); auto cmd = Command::New(); SetupCommand(cmd); QuadCommand(cmd, rec, uv, color); draw_list[Screen32(screen)].push_back(cmd); } void Renderer::DrawRectSolid(const vec2& pos, const vec2& size, u32 color) { UseTex(); DrawRect(pos, size, color, vec4(0.f, 1.f, 1.f, 0.f)); } void Renderer::DrawTriangle(const vec2& a, const vec2& b, const vec2& c, u32 color) { if (!InBox(a, b, c, GetViewport())) { return; } UseTex(); auto cmd = Command::New(); SetupCommand(cmd); TriangleCommand(cmd, a, b, c, color); draw_list[Screen32(screen)].push_back(cmd); } void Renderer::DrawCircle(const vec2& center_pos, float r, u32 color, int segments) { if (segments < 3) { return; } auto cmd = Command::New(); cmd->Index(cmd_idx++).Layer(current_layer).Tex(current_tex); for (int i = 1; i < segments - 1; i++) { cmd->PushIndex(0); cmd->PushIndex(i + 1).PushIndex(i); } float as = 2.f * M_PI / segments; for (int i = 0; i < segments; i++) { float a = i * as; float x = center_pos.x() + r * std::cos(a); float y = center_pos.y() + r * std::sin(a); cmd->PushVertex(Vertex( vec2(x, y), vec2((std::cos(a) + 1.f) / 2.f, (std::sin(a) + 1.f) / 2.f), color)); } draw_list[Screen32(screen)].push_back(cmd); } void Renderer::DrawLine(const vec2& a, const vec2& b, u32 color, int t) { UseTex(); Rect line = CreateLine(a, b, t); auto cmd = Command::New(); SetupCommand(cmd); QuadCommand(cmd, line, vec4(0.f, 1.f, 1.f, 0.f), color); draw_list[Screen32(screen)].push_back(cmd); } void Renderer::DrawImage(const vec2& pos, Texture::Ref tex, const vec2& scale) { UseTex(tex); DrawRect(pos, tex->GetSize() * scale, 0xffffffff, tex->GetUV()); } void Renderer::DrawText(const vec2& pos, u32 color, const std::string& text, u32 flags, const vec2& ap) { if (!font) { return; } if (this->flags & RenderFlags_AST) { u32 id = Strings::FastHash(text); auto e = ast.find(id); if (e == ast.end()) { ast[id] = StaticText::New(); e = ast.find(id); } if (!e->second->IsSetup() || e->second->Font() != font) { e->second->Setup(this, pos, color, text, flags, ap); e->second->Font(font); } e->second->SetPos(pos); e->second->SetColor(color); e->second->Draw(); return; } TextCommand(draw_list[Screen32(screen)], pos, color, text, flags, ap); } } // namespace PD::LI