#include "Specter/TextField.hpp" #include "Specter/RootView.hpp" #include "Specter/ViewResources.hpp" namespace Specter { TextField::TextField(ViewResources& res, View& parentView, IStringBinding* strBind) : ITextInputView(res, parentView, strBind) { m_bVertsBuf = res.m_factory->newDynamicBuffer(boo::BufferUse::Vertex, sizeof(SolidShaderVert), 32); if (!res.m_viewRes.m_texVtxFmt) { boo::VertexElementDescriptor vdescs[] = { {m_bVertsBuf, nullptr, boo::VertexSemantic::Position4}, {m_bVertsBuf, nullptr, boo::VertexSemantic::Color} }; m_bVtxFmt = res.m_factory->newVertexFormat(2, vdescs); boo::IGraphicsBuffer* bufs[] = {m_viewVertBlockBuf}; m_bShaderBinding = res.m_factory->newShaderDataBinding(res.m_viewRes.m_solidShader, m_bVtxFmt, m_bVertsBuf, nullptr, nullptr, 1, bufs, 0, nullptr); } else { boo::IGraphicsBuffer* bufs[] = {m_viewVertBlockBuf}; m_bShaderBinding = res.m_factory->newShaderDataBinding(res.m_viewRes.m_solidShader, res.m_viewRes.m_texVtxFmt, m_bVertsBuf, nullptr, nullptr, 1, bufs, 0, nullptr); } commitResources(res); m_verts[0].m_color = rootView().themeData().textfield1Inactive(); m_verts[1].m_color = rootView().themeData().textfield2Inactive(); m_verts[2].m_color = rootView().themeData().textfield1Inactive(); m_verts[3].m_color = rootView().themeData().textfield2Inactive(); m_verts[4].m_color = rootView().themeData().textfield2Inactive(); for (int i=5 ; i<28 ; ++i) m_verts[i].m_color = res.themeData().textfield2Inactive(); for (int i=28 ; i<32 ; ++i) m_verts[i].m_color = res.themeData().textfieldSelection(); m_bVertsBuf->load(m_verts, sizeof(m_verts)); m_text.reset(new TextView(res, *this, res.m_mainFont, TextView::Alignment::Left, 1024)); setText("ใƒ†ใ‚นใƒˆ"); } void TextField::_setText() { if (m_hasTextSet) { _clearSelectionRange(); m_textStr = m_deferredTextStr; m_text->typesetGlyphs(m_textStr, rootView().themeData().fieldText()); m_hasTextSet = false; if (m_deferredMarkStr.size()) m_hasMarkSet = true; } } void TextField::_setMarkedText() { if (m_hasMarkSet) { m_markReplStart = m_deferredMarkReplStart; m_markReplCount = m_deferredMarkReplCount; m_markSelStart = m_deferredMarkSelStart; m_markSelCount = m_deferredMarkSelCount; size_t repPoint; size_t repEnd; if (m_selectionCount) { repPoint = m_selectionStart; repEnd = m_selectionStart; } else { repPoint = m_cursorPos; repEnd = m_cursorPos; } if (m_markReplStart != SIZE_MAX) { repPoint += m_markReplStart; repEnd += m_markReplStart + m_markReplCount; } size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); repPoint = std::min(repPoint, len); repEnd = std::min(repEnd, len); std::string compStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + repPoint).iter()); compStr += m_deferredMarkStr; compStr += std::string((UTF8Iterator(m_textStr.cbegin()) + repEnd).iter(), m_textStr.cend()); m_text->typesetGlyphs(compStr, rootView().themeData().fieldText()); size_t pos = m_cursorPos; if (m_deferredMarkStr.size()) pos += m_markSelStart; if (m_markSelCount) _reallySetMarkRange(pos, m_markSelCount); else _reallySetCursorPos(pos); std::vector& glyphs = m_text->accessGlyphs(); size_t defLen = UTF8Iterator(m_deferredMarkStr.cbegin()).countTo(m_deferredMarkStr.cend()); for (auto it=glyphs.begin()+repPoint ; itm_color = rootView().themeData().fieldMarkedText(); m_text->updateGlyphs(); m_hasMarkSet = false; } } void TextField::setText(const std::string& str) { std::unique_lock lk(m_textInputLk); UTF8Iterator it(str.cbegin()); for (; it.iter() != str.cend() ; ++it) if (*it.iter() == '\n') break; m_deferredTextStr.assign(str.cbegin(), it.iter()); m_hasTextSet = true; } void TextField::setInactive() { m_verts[0].m_color = rootView().themeData().textfield1Inactive(); m_verts[1].m_color = rootView().themeData().textfield2Inactive(); m_verts[2].m_color = rootView().themeData().textfield1Inactive(); m_verts[3].m_color = rootView().themeData().textfield2Inactive(); m_verts[4].m_color = rootView().themeData().textfield2Inactive(); m_bVertsBuf->load(m_verts, sizeof(m_verts)); } void TextField::setHover() { m_verts[0].m_color = rootView().themeData().textfield1Hover(); m_verts[1].m_color = rootView().themeData().textfield2Hover(); m_verts[2].m_color = rootView().themeData().textfield1Hover(); m_verts[3].m_color = rootView().themeData().textfield2Hover(); m_verts[4].m_color = rootView().themeData().textfield2Hover(); m_bVertsBuf->load(m_verts, sizeof(m_verts)); } void TextField::setDisabled() { m_verts[0].m_color = rootView().themeData().textfield1Disabled(); m_verts[1].m_color = rootView().themeData().textfield2Disabled(); m_verts[2].m_color = rootView().themeData().textfield1Disabled(); m_verts[3].m_color = rootView().themeData().textfield2Disabled(); m_verts[4].m_color = rootView().themeData().textfield2Disabled(); m_bVertsBuf->load(m_verts, sizeof(m_verts)); } void TextField::mouseDown(const boo::SWindowCoord& coord, boo::EMouseButton button, boo::EModifierKey mod) { std::unique_lock lk(m_textInputLk); if (!m_active) { rootView().setActiveTextView(this); } else if (m_clickFrames2 < 15) { size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); setSelectionRange(0, len); } else if (m_clickFrames < 15) { size_t startPos = m_text->reverseSelectGlyph(coord.pixel[0] - m_text->subRect().location[0]); std::pair range = m_text->queryWholeWordRange(startPos); setSelectionRange(range.first, range.second); m_clickFrames2 = 0; } else { size_t startPos = m_text->reverseSelectGlyph(coord.pixel[0] - m_text->subRect().location[0]); setCursorPos(startPos); m_dragging |= size_t(1 << int(button)); m_dragStart = startPos; rootView().setActiveDragView(this); } m_clickFrames = 0; } void TextField::mouseUp(const boo::SWindowCoord& coord, boo::EMouseButton button, boo::EModifierKey mod) { m_dragging &= ~(1 << int(button)); if (m_dragging == 0) rootView().setActiveDragView(nullptr); } void TextField::mouseMove(const boo::SWindowCoord& coord) { if (m_dragging != 0) { std::unique_lock lk(m_textInputLk); size_t thisPos = m_text->reverseSelectGlyph(coord.pixel[0] - m_text->subRect().location[0]); size_t minPos = std::min(m_dragStart, thisPos); size_t maxPos = std::max(m_dragStart, thisPos); if (minPos != maxPos) setSelectionRange(minPos, maxPos-minPos); else setCursorPos(minPos); } } void TextField::mouseEnter(const boo::SWindowCoord& coord) { setHover(); rootView().setTextFieldHover(true); } void TextField::mouseLeave(const boo::SWindowCoord& coord) { setInactive(); rootView().setTextFieldHover(false); } void TextField::clipboardCopy() { std::unique_lock lk(m_textInputLk); if (!m_selectionCount) return; UTF8Iterator begin(m_textStr.cbegin()); begin += m_selectionStart; UTF8Iterator end(begin.iter()); end += m_selectionCount; rootView().window()->clipboardCopy(boo::EClipboardType::UTF8String, (uint8_t*)&*begin.iter(), end.iter() - begin.iter()); } void TextField::clipboardCut() { std::unique_lock lk(m_textInputLk); if (!m_selectionCount) return; UTF8Iterator begin(m_textStr.cbegin()); begin += m_selectionStart; UTF8Iterator end(begin.iter()); end += m_selectionCount; rootView().window()->clipboardCopy(boo::EClipboardType::UTF8String, (uint8_t*)&*begin.iter(), end.iter() - begin.iter()); std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_selectionStart).iter()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_selectionStart + m_selectionCount).iter(), m_textStr.cend()); size_t selStart = m_selectionStart; setText(newStr); setCursorPos(selStart); } static std::string SanitizeUTF8TextLine(const char* string, size_t len) { const char* it = string; utf8proc_int32_t ch; utf8proc_ssize_t sz; std::string ret; ret.reserve(len); for (sz = utf8proc_iterate((utf8proc_uint8_t*)it, -1, &ch); it < string+len; it += sz, sz = utf8proc_iterate((utf8proc_uint8_t*)it, -1, &ch)) { if (sz <= 0) break; if (ch >= 0x20) ret.append(it, sz); } return ret; } void TextField::clipboardPaste() { std::unique_lock lk(m_textInputLk); size_t retSz; std::unique_ptr retData = rootView().window()->clipboardPaste(boo::EClipboardType::UTF8String, retSz); std::string saniData = SanitizeUTF8TextLine((char*)retData.get(), retSz); if (retData && saniData.size()) { if (m_selectionCount) { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_selectionStart).iter()); newStr.append(saniData); size_t newSel = UTF8Iterator(newStr.cbegin()).countTo(newStr.cend()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_selectionStart + m_selectionCount).iter(), m_textStr.cend()); setText(newStr); setCursorPos(newSel); } else { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_cursorPos).iter()); newStr.append(saniData); size_t newSel = UTF8Iterator(newStr.cbegin()).countTo(newStr.cend()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_cursorPos).iter(), m_textStr.cend()); setText(newStr); setCursorPos(newSel); } } } void TextField::specialKeyDown(boo::ESpecialKey key, boo::EModifierKey mods, bool isRepeat) { std::unique_lock lk(m_textInputLk); if (m_deferredMarkStr.size()) return; if (key == boo::ESpecialKey::Left) { if ((mods & boo::EModifierKey::Shift) != boo::EModifierKey::None) { if (m_cursorPos) { size_t origPos = m_cursorPos; if (m_selectionCount) { if (m_cursorPos == m_selectionStart) setSelectionRange(m_cursorPos-1, m_selectionCount+1); else setSelectionRange(m_selectionStart, m_selectionCount-1); } else setSelectionRange(m_cursorPos-1, 1); m_cursorPos = origPos - 1; } } else { if (m_selectionCount) m_cursorPos = m_selectionStart; setCursorPos(m_cursorPos==0 ? 0 : (m_cursorPos-1)); } } else if (key == boo::ESpecialKey::Right) { if ((mods & boo::EModifierKey::Shift) != boo::EModifierKey::None) { size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); if (m_cursorPos < len) { size_t origPos = m_cursorPos; if (m_selectionCount) { if (m_cursorPos == m_selectionStart) setSelectionRange(m_cursorPos+1, m_selectionCount-1); else setSelectionRange(m_selectionStart, m_selectionCount+1); } else setSelectionRange(m_cursorPos, 1); m_cursorPos = origPos + 1; } } else { if (m_selectionCount) m_cursorPos = m_selectionStart + m_selectionCount - 1; setCursorPos(m_cursorPos+1); } } else if (key == boo::ESpecialKey::Backspace) { if (m_selectionCount) { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_selectionStart).iter()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_selectionStart + m_selectionCount).iter(), m_textStr.cend()); size_t selStart = m_selectionStart; setText(newStr); setCursorPos(selStart); } else if (m_cursorPos > 0) { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + (m_cursorPos-1)).iter()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_cursorPos).iter(), m_textStr.cend()); setText(newStr); setCursorPos(m_cursorPos-1); } } else if (key == boo::ESpecialKey::Delete) { size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); if (m_selectionCount) { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_selectionStart).iter()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + m_selectionStart + m_selectionCount).iter(), m_textStr.cend()); size_t selStart = m_selectionStart; setText(newStr); setCursorPos(selStart); } else if (m_cursorPos < len) { std::string newStr(m_textStr.cbegin(), (UTF8Iterator(m_textStr.cbegin()) + m_cursorPos).iter()); newStr.append((UTF8Iterator(m_textStr.cbegin()) + (m_cursorPos+1)).iter(), m_textStr.cend()); setText(newStr); setCursorPos(m_cursorPos); } } } bool TextField::hasMarkedText() const { std::unique_lock lk(m_textInputLk); return m_deferredMarkStr.size() != 0; } std::pair TextField::markedRange() const { std::unique_lock lk(m_textInputLk); if (m_deferredMarkStr.empty()) return {-1, 0}; return {m_cursorPos, UTF8Iterator(m_deferredMarkStr.cbegin()).countTo(m_deferredMarkStr.cend())}; } std::pair TextField::selectedRange() const { std::unique_lock lk(m_textInputLk); if (!m_deferredSelectionCount) return {-1, 0}; return {m_deferredSelectionStart, m_deferredSelectionCount}; } void TextField::setMarkedText(const std::string& str, const std::pair& selectedRange, const std::pair& replacementRange) { std::unique_lock lk(m_textInputLk); m_deferredMarkStr = SanitizeUTF8TextLine(str.data(), str.size()); m_deferredMarkSelStart = selectedRange.first; m_deferredMarkSelCount = selectedRange.second; m_deferredMarkReplStart = replacementRange.first; m_deferredMarkReplCount = replacementRange.second; m_hasMarkSet = true; } void TextField::unmarkText() { std::unique_lock lk(m_textInputLk); m_deferredMarkStr.clear(); m_deferredMarkReplStart = 0; m_deferredMarkReplCount = 0; m_deferredMarkSelStart = 0; m_deferredMarkSelCount = 0; m_hasMarkSet = true; } std::string TextField::substringForRange(const std::pair& range, std::pair& actualRange) const { std::unique_lock lk(m_textInputLk); UTF8Iterator begin(m_deferredTextStr.cbegin()); size_t curLen = UTF8Iterator(m_deferredTextStr.cbegin()).countTo(m_deferredTextStr.cend()); if (range.first >= curLen) return std::string(); begin += range.first; size_t endIdx = std::min(size_t(range.first + range.second), curLen); UTF8Iterator end(m_deferredTextStr.cbegin()); end += endIdx; actualRange.first = range.first; actualRange.second = endIdx; return std::string(begin.iter(), end.iter()); } void TextField::insertText(const std::string& str, const std::pair& range) { std::string saniStr = SanitizeUTF8TextLine(str.data(), str.size()); std::unique_lock lk(m_textInputLk); size_t curLen = UTF8Iterator(m_deferredTextStr.cbegin()).countTo(m_deferredTextStr.cend()); if (range.first < 0 || range.first >= curLen) { size_t beginPos = m_deferredCursorPos; if (m_selectionCount) beginPos = m_selectionCount; beginPos = std::min(beginPos, curLen); std::string newStr(m_deferredTextStr.cbegin(), (UTF8Iterator(m_deferredTextStr.cbegin())+beginPos).iter()); newStr += saniStr; size_t newPos = UTF8Iterator(newStr.cbegin()).countTo(newStr.cend()); newStr += std::string((UTF8Iterator(m_deferredTextStr.cbegin())+beginPos).iter(), m_deferredTextStr.cend()); setText(newStr); setCursorPos(newPos); unmarkText(); return; } std::string newStr(m_deferredTextStr.cbegin(), (UTF8Iterator(m_deferredTextStr.cbegin()) + range.first).iter()); newStr += saniStr; size_t newSel = UTF8Iterator(newStr.cbegin()).countTo(newStr.cend()); size_t endIdx = range.first + range.second; if (endIdx >= newSel) endIdx = newSel - 1; newStr.append((UTF8Iterator(m_deferredTextStr.cbegin()) + endIdx).iter(), m_deferredTextStr.cend()); setText(newStr); setCursorPos(newSel); unmarkText(); } int TextField::characterIndexAtPoint(const boo::SWindowCoord& point) const { std::unique_lock lk(m_textInputLk); return m_text->reverseSelectGlyph(point.pixel[0]); } boo::SWindowRect TextField::rectForCharacterRange(const std::pair& range, std::pair& actualRange) const { std::unique_lock lk(m_textInputLk); UTF8Iterator begin(m_textStr.cbegin()); size_t curLen = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); if (range.first >= curLen) { const std::vector& glyphs = m_text->accessGlyphs(); const TextView::RenderGlyph& g = glyphs.back(); return {{subRect().location[0] + int(g.m_pos[3][0]), subRect().location[1] + int(g.m_pos[3][1])}}; } begin += range.first; size_t endIdx = std::min(size_t(range.first + range.second), curLen); UTF8Iterator end(m_textStr.cbegin()); end += endIdx; actualRange.first = range.first; actualRange.second = endIdx; const std::vector& glyphs = m_text->accessGlyphs(); const TextView::RenderGlyph& g1 = glyphs[range.first]; const TextView::RenderGlyph& g2 = glyphs[endIdx]; fprintf(stderr, "Ret %d %d\n", subRect().location[0] + int(g1.m_pos[1][0]), subRect().location[1] + int(g1.m_pos[1][1])); return {{subRect().location[0] + int(g1.m_pos[1][0]), subRect().location[1] + int(g1.m_pos[1][1])}, {int(g2.m_pos[3][0]-g1.m_pos[1][0]), int(g2.m_pos[0][1]-g1.m_pos[1][1])}}; } void TextField::think() { ++m_cursorFrames; ++m_clickFrames; ++m_clickFrames2; std::unique_lock lk(m_textInputLk); _setText(); _setSelectionRange(); _clearSelectionRange(); _setCursorPos(); _setMarkedText(); } void TextField::setActive(bool active) { std::unique_lock lk(m_textInputLk); m_active = active; if (!active) { clearSelectionRange(); rootView().window()->claimKeyboardFocus(nullptr); } else if (!m_selectionCount) { size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); setSelectionRange(0, len); } } void TextField::_reallySetCursorPos(size_t pos) { float pf = rootView().viewRes().pixelFactor(); int offset1 = 4 * pf + m_text->queryReverseAdvance(pos); int offset2 = offset1 + 2 * pf; const Zeus::CColor& selColor = rootView().viewRes().themeData().textfieldSelection(); m_verts[28].m_pos.assign(offset1, 18 * pf, 0); m_verts[28].m_color = selColor; m_verts[29].m_pos.assign(offset1, 4 * pf, 0); m_verts[29].m_color = selColor; m_verts[30].m_pos.assign(offset2, 18 * pf, 0); m_verts[30].m_color = selColor; m_verts[31].m_pos.assign(offset2, 4 * pf, 0); m_verts[31].m_color = selColor; m_bVertsBuf->load(m_verts, sizeof(m_verts)); int focusRect[2] = {subRect().location[0] + offset1, subRect().location[1]}; rootView().window()->claimKeyboardFocus(focusRect); } void TextField::_setCursorPos() { if (m_hasCursorSet) { m_hasSelectionClear = true; _clearSelectionRange(); m_cursorPos = std::min(m_deferredCursorPos, UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend())); m_deferredCursorPos = m_cursorPos; m_cursorFrames = 0; _reallySetCursorPos(m_cursorPos); m_hasCursorSet = false; } } void TextField::setCursorPos(size_t pos) { std::unique_lock lk(m_textInputLk); m_deferredCursorPos = pos; m_hasCursorSet = true; } void TextField::_reallySetSelectionRange(size_t start, size_t len) { ViewResources& res = rootView().viewRes(); float pf = res.pixelFactor(); int offset1 = 5 * pf; int offset2 = offset1; std::vector& glyphs = m_text->accessGlyphs(); offset1 += glyphs[start].m_pos[0][0]; offset2 += glyphs[start+len-1].m_pos[2][0]; for (size_t i=0 ; i= start && i < start + len) glyphs[i].m_color = rootView().themeData().selectedFieldText(); else glyphs[i].m_color = rootView().themeData().fieldText(); } m_text->updateGlyphs(); m_verts[28].m_pos.assign(offset1, 18 * pf, 0); m_verts[29].m_pos.assign(offset1, 4 * pf, 0); m_verts[30].m_pos.assign(offset2, 18 * pf, 0); m_verts[31].m_pos.assign(offset2, 4 * pf, 0); m_bVertsBuf->load(m_verts, sizeof(m_verts)); int focusRect[2] = {subRect().location[0] + offset1, subRect().location[1]}; rootView().window()->claimKeyboardFocus(focusRect); } void TextField::_reallySetMarkRange(size_t start, size_t len) { ViewResources& res = rootView().viewRes(); float pf = res.pixelFactor(); int offset1 = 5 * pf; int offset2 = offset1; std::vector& glyphs = m_text->accessGlyphs(); offset1 += glyphs[start].m_pos[0][0]; offset2 += glyphs[start+len-1].m_pos[2][0]; const Zeus::CColor& selColor = rootView().themeData().textfieldMarkSelection(); m_verts[28].m_pos.assign(offset1, 18 * pf, 0); m_verts[28].m_color = selColor; m_verts[29].m_pos.assign(offset1, 4 * pf, 0); m_verts[29].m_color = selColor; m_verts[30].m_pos.assign(offset2, 18 * pf, 0); m_verts[30].m_color = selColor; m_verts[31].m_pos.assign(offset2, 4 * pf, 0); m_verts[31].m_color = selColor; m_bVertsBuf->load(m_verts, sizeof(m_verts)); int focusRect[2] = {subRect().location[0] + offset1, subRect().location[1]}; rootView().window()->claimKeyboardFocus(focusRect); } void TextField::_setSelectionRange() { if (m_hasSelectionSet) { size_t len = UTF8Iterator(m_textStr.cbegin()).countTo(m_textStr.cend()); m_selectionStart = std::min(m_deferredSelectionStart, len-1); m_deferredSelectionStart = m_selectionStart; m_selectionCount = std::min(m_deferredSelectionCount, len-m_selectionStart); m_deferredSelectionCount = m_selectionCount; _reallySetSelectionRange(m_selectionStart, m_selectionCount); m_hasSelectionSet = false; } } void TextField::setSelectionRange(size_t start, size_t count) { std::unique_lock lk(m_textInputLk); if (!count) { setCursorPos(start); return; } m_deferredSelectionStart = start; m_deferredSelectionCount = count; m_hasSelectionSet = true; m_hasSelectionClear = false; } void TextField::_clearSelectionRange() { if (m_hasSelectionClear) { m_selectionStart = 0; m_selectionCount = 0; std::vector& glyphs = m_text->accessGlyphs(); for (size_t i=0 ; iupdateGlyphs(); m_hasSelectionClear = false; } } void TextField::clearSelectionRange() { std::unique_lock lk(m_textInputLk); m_deferredSelectionStart = 0; m_deferredSelectionCount = 0; m_hasSelectionClear = true; m_hasSelectionSet = false; } void TextField::resized(const boo::SWindowRect& root, const boo::SWindowRect& sub) { float pf = rootView().viewRes().pixelFactor(); int width = sub.size[0]; int height = 20 * pf; boo::SWindowRect newRect = sub; newRect.size[1] = height; View::resized(root, newRect); m_verts[0].m_pos.assign(1, height+1, 0); m_verts[1].m_pos.assign(1, 1, 0); m_verts[2].m_pos.assign(width+1, height+1, 0); m_verts[3].m_pos.assign(width+1, 1, 0); m_verts[4].m_pos.assign(width+1, 1, 0); m_verts[5].m_pos.assign(1, height+1, 0); m_verts[6].m_pos.assign(1, height+1, 0); m_verts[7].m_pos.assign(0, height+1, 0); m_verts[8].m_pos.assign(1, 1, 0); m_verts[9].m_pos.assign(0, 1, 0); m_verts[10].m_pos.assign(0, 1, 0); m_verts[11].m_pos.assign(width+2, height+1, 0); m_verts[12].m_pos.assign(width+2, height+1, 0); m_verts[13].m_pos.assign(width+1, height+1, 0); m_verts[14].m_pos.assign(width+2, 1, 0); m_verts[15].m_pos.assign(width+1, 1, 0); m_verts[16].m_pos.assign(width+1, 1, 0); m_verts[17].m_pos.assign(1, height+2, 0); m_verts[18].m_pos.assign(1, height+2, 0); m_verts[19].m_pos.assign(1, height+1, 0); m_verts[20].m_pos.assign(width+1, height+2, 0); m_verts[21].m_pos.assign(width+1, height+1, 0); m_verts[22].m_pos.assign(width+1, height+1, 0); m_verts[23].m_pos.assign(1, 1, 0); m_verts[24].m_pos.assign(1, 1, 0); m_verts[25].m_pos.assign(1, 0, 0); m_verts[26].m_pos.assign(width+1, 1, 0); m_verts[27].m_pos.assign(width+1, 0, 0); m_bVertsBuf->load(m_verts, sizeof(m_verts)); m_nomWidth = width; m_nomHeight = height; boo::SWindowRect textRect = sub; textRect.location[0] += 5 * pf; textRect.location[1] += 7 * pf; m_text->resized(root, textRect); } void TextField::draw(boo::IGraphicsCommandQueue* gfxQ) { View::draw(gfxQ); gfxQ->setShaderDataBinding(m_bShaderBinding); gfxQ->setDrawPrimitive(boo::Primitive::TriStrips); gfxQ->draw(0, 28); if (m_active) { if (!m_selectionCount && !m_markSelCount) { if (m_cursorFrames % 60 < 30) gfxQ->draw(28, 4); } else gfxQ->draw(28, 4); } m_text->draw(gfxQ); } }