iw4x-client/src/Components/Modules/TextRenderer.cpp

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#include "STDInclude.hpp"
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namespace Game
{
float* con_screenMin = reinterpret_cast<float*>(0xA15F48);
}
namespace Components
{
unsigned TextRenderer::colorTableDefault[TEXT_COLOR_COUNT]
{
ColorRgb(0, 0, 0), // TEXT_COLOR_BLACK
ColorRgb(255, 92, 92), // TEXT_COLOR_RED
ColorRgb(0, 255, 0), // TEXT_COLOR_GREEN
ColorRgb(255, 255, 0), // TEXT_COLOR_YELLOW
ColorRgb(0, 0, 255), // TEXT_COLOR_BLUE
ColorRgb(0, 255, 255), // TEXT_COLOR_LIGHT_BLUE
ColorRgb(255, 92, 255), // TEXT_COLOR_PINK
ColorRgb(255, 255, 255), // TEXT_COLOR_DEFAULT
ColorRgb(255, 255, 255), // TEXT_COLOR_AXIS
ColorRgb(255, 255, 255), // TEXT_COLOR_ALLIES
ColorRgb(255, 255, 255), // TEXT_COLOR_RAINBOW
ColorRgb(255, 255, 255), // TEXT_COLOR_SERVER
};
unsigned TextRenderer::colorTableNew[TEXT_COLOR_COUNT]
{
ColorRgb(0, 0, 0), // TEXT_COLOR_BLACK
ColorRgb(255, 49, 49), // TEXT_COLOR_RED
ColorRgb(134, 192, 0), // TEXT_COLOR_GREEN
ColorRgb(255, 173, 34), // TEXT_COLOR_YELLOW
ColorRgb(0, 135, 193), // TEXT_COLOR_BLUE
ColorRgb(32, 197, 255), // TEXT_COLOR_LIGHT_BLUE
ColorRgb(151, 80, 221), // TEXT_COLOR_PINK
ColorRgb(255, 255, 255), // TEXT_COLOR_DEFAULT
ColorRgb(255, 255, 255), // TEXT_COLOR_AXIS
ColorRgb(255, 255, 255), // TEXT_COLOR_ALLIES
ColorRgb(255, 255, 255), // TEXT_COLOR_RAINBOW
ColorRgb(255, 255, 255), // TEXT_COLOR_SERVER
};
unsigned(*TextRenderer::currentColorTable)[TEXT_COLOR_COUNT];
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TextRenderer::FontIconAutocompleteContext TextRenderer::autocompleteContextArray[FONT_ICON_ACI_COUNT]{};
std::map<std::string, TextRenderer::FontIconTableEntry> TextRenderer::fontIconLookup;
std::vector<TextRenderer::FontIconTableEntry> TextRenderer::fontIconList;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_BIG> TextRenderer::stringSearchStartWith;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_SMALL> TextRenderer::stringHintAutoComplete;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_SMALL> TextRenderer::stringHintModifier;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_NONE> TextRenderer::stringListHeader;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_SMALL> TextRenderer::stringListFlipHorizontal;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_SMALL> TextRenderer::stringListFlipVertical;
TextRenderer::FormattedStringBuffer<TextRenderer::STRING_BUFFER_SIZE_SMALL> TextRenderer::stringListBig;
Dvar::Var TextRenderer::cg_newColors;
Dvar::Var TextRenderer::cg_fontIconAutocomplete;
Dvar::Var TextRenderer::cg_fontIconAutocompleteHint;
Game::dvar_t* TextRenderer::sv_customTextColor;
Dvar::Var TextRenderer::r_colorBlind;
Game::dvar_t* TextRenderer::g_ColorBlind_MyTeam;
Game::dvar_t* TextRenderer::g_ColorBlind_EnemyTeam;
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Game::dvar_t** TextRenderer::con_inputBoxColor = reinterpret_cast<Game::dvar_t**>(0x9FD4BC);
unsigned TextRenderer::HsvToRgb(HsvColor hsv)
{
unsigned rgb;
unsigned char region, p, q, t;
unsigned int h, s, v, remainder;
if (hsv.s == 0)
{
rgb = ColorRgb(hsv.v, hsv.v, hsv.v);
return rgb;
}
// converting to 16 bit to prevent overflow
h = hsv.h;
s = hsv.s;
v = hsv.v;
region = static_cast<uint8_t>(h / 43);
remainder = (h - (region * 43)) * 6;
p = static_cast<uint8_t>((v * (255 - s)) >> 8);
q = static_cast<uint8_t>((v * (255 - ((s * remainder) >> 8))) >> 8);
t = static_cast<uint8_t>((v * (255 - ((s * (255 - remainder)) >> 8))) >> 8);
switch (region)
{
case 0:
rgb = ColorRgb(static_cast<uint8_t>(v), t, p);
break;
case 1:
rgb = ColorRgb(q, static_cast<uint8_t>(v), p);
break;
case 2:
rgb = ColorRgb(p, static_cast<uint8_t>(v), t);
break;
case 3:
rgb = ColorRgb(p, q, static_cast<uint8_t>(v));
break;
case 4:
rgb = ColorRgb(t, p, static_cast<uint8_t>(v));
break;
default:
rgb = ColorRgb(static_cast<uint8_t>(v), p, q);
break;
}
return rgb;
}
void TextRenderer::DrawAutocompleteBox(const FontIconAutocompleteContext& context, const float x, const float y, const float w, const float h, const float* color)
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{
static constexpr float colorWhite[4]
{
1.0f,
1.0f,
1.0f,
1.0f
};
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const float borderColor[4]
{
color[0] * 0.5f,
color[1] * 0.5f,
color[2] * 0.5f,
color[3]
};
Game::R_AddCmdDrawStretchPic(x, y, w, h, 0.0, 0.0, 0.0, 0.0, color, Game::cls->whiteMaterial);
Game::R_AddCmdDrawStretchPic(x, y, FONT_ICON_AUTOCOMPLETE_BOX_BORDER, h, 0.0, 0.0, 0.0, 0.0, borderColor, Game::cls->whiteMaterial);
Game::R_AddCmdDrawStretchPic(x + w - FONT_ICON_AUTOCOMPLETE_BOX_BORDER, y, FONT_ICON_AUTOCOMPLETE_BOX_BORDER, h, 0.0, 0.0, 0.0, 0.0, borderColor, Game::cls->whiteMaterial);
Game::R_AddCmdDrawStretchPic(x, y, w, FONT_ICON_AUTOCOMPLETE_BOX_BORDER, 0.0, 0.0, 0.0, 0.0, borderColor, Game::cls->whiteMaterial);
Game::R_AddCmdDrawStretchPic(x, y + h - FONT_ICON_AUTOCOMPLETE_BOX_BORDER, w, FONT_ICON_AUTOCOMPLETE_BOX_BORDER, 0.0, 0.0, 0.0, 0.0, borderColor, Game::cls->whiteMaterial);
if (context.resultOffset > 0)
{
Game::R_AddCmdDrawStretchPic(x + w - FONT_ICON_AUTOCOMPLETE_BOX_BORDER - FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
y + FONT_ICON_AUTOCOMPLETE_BOX_BORDER,
FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
1.0f, 1.0f, 0.0f, 0.0f, colorWhite, Game::sharedUiInfo->assets.scrollBarArrowDown);
}
if(context.hasMoreResults)
{
Game::R_AddCmdDrawStretchPic(x + w - FONT_ICON_AUTOCOMPLETE_BOX_BORDER - FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
y + h - FONT_ICON_AUTOCOMPLETE_BOX_BORDER - FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
FONT_ICON_AUTOCOMPLETE_ARROW_SIZE,
1.0f, 1.0f, 0.0f, 0.0f, colorWhite, Game::sharedUiInfo->assets.scrollBarArrowUp);
}
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}
void TextRenderer::UpdateAutocompleteContextResults(FontIconAutocompleteContext& context, Game::Font_s* font, const float textXScale)
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{
context.resultCount = 0;
context.hasMoreResults = false;
context.lastResultOffset = context.resultOffset;
auto skipCount = context.resultOffset;
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const auto queryLen = context.lastQuery.size();
for(const auto& fontIconEntry : fontIconList)
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{
const auto compareValue = fontIconEntry.iconName.compare(0, queryLen, context.lastQuery);
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if (compareValue == 0)
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{
if (skipCount > 0)
{
skipCount--;
}
else if (context.resultCount < FontIconAutocompleteContext::MAX_RESULTS)
{
context.results[context.resultCount++] = {
Utils::String::VA(":%s:", fontIconEntry.iconName.data()),
fontIconEntry.iconName
};
}
else
context.hasMoreResults = true;
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}
else if (compareValue > 0)
break;
}
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context.maxFontIconWidth = 0;
context.maxMaterialNameWidth = 0;
for(auto resultIndex = 0u; resultIndex < context.resultCount; resultIndex++)
{
const auto& result = context.results[resultIndex];
const auto fontIconWidth = static_cast<float>(Game::R_TextWidth(result.fontIconName.c_str(), std::numeric_limits<int>::max(), font)) * textXScale;
const auto materialNameWidth = static_cast<float>(Game::R_TextWidth(result.materialName.c_str(), std::numeric_limits<int>::max(), font)) * textXScale;
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if (fontIconWidth > context.maxFontIconWidth)
context.maxFontIconWidth = fontIconWidth;
if (materialNameWidth > context.maxMaterialNameWidth)
context.maxMaterialNameWidth = materialNameWidth;
}
}
void TextRenderer::UpdateAutocompleteContext(TextRenderer::FontIconAutocompleteContext& context, const Game::field_t* edit, Game::Font_s* font, const float textXScale)
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{
int fontIconStart = -1;
auto inModifiers = false;
for(auto i = 0; i < edit->cursor; i++)
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{
const auto c = static_cast<unsigned char>(edit->buffer[i]);
if (c == FONT_ICON_SEPARATOR_CHARACTER)
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{
if(fontIconStart < 0)
{
fontIconStart = i + 1;
inModifiers = false;
}
else
{
fontIconStart = -1;
inModifiers = false;
}
}
else if(isspace(c))
{
fontIconStart = -1;
inModifiers = false;
}
else if(c == FONT_ICON_MODIFIER_SEPARATOR_CHARACTER)
{
if (fontIconStart >= 0 && !inModifiers)
{
inModifiers = true;
}
else
{
fontIconStart = -1;
inModifiers = false;
}
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}
}
if(fontIconStart < 0 // Not in fonticon sequence
|| fontIconStart == edit->cursor // Did not type the first letter yet
|| !isalpha(static_cast<unsigned char>(edit->buffer[fontIconStart])) // First letter of the icon is not alphabetic
|| (fontIconStart > 1 && isalnum(static_cast<unsigned char>(edit->buffer[fontIconStart - 2]))) // Letter before sequence is alnum
)
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{
context.autocompleteActive = false;
context.userClosed = false;
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context.lastHash = 0;
context.resultCount = 0;
return;
}
context.inModifiers = inModifiers;
// Update scroll
if(context.selectedOffset < context.resultOffset)
context.resultOffset = context.selectedOffset;
else if(context.selectedOffset >= context.resultOffset + FontIconAutocompleteContext::MAX_RESULTS)
context.resultOffset = context.selectedOffset - (FontIconAutocompleteContext::MAX_RESULTS - 1);
// If the user closed the context do not draw or update
if (context.userClosed)
return;
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context.autocompleteActive = true;
// No need to update results when in modifiers
if (context.inModifiers)
return;
// Check if results need updates
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const auto currentFontIconHash = Game::R_HashString(&edit->buffer[fontIconStart], edit->cursor - fontIconStart);
if (currentFontIconHash == context.lastHash && context.lastResultOffset == context.resultOffset)
return;
// If query was updated then reset scroll parameters
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if(currentFontIconHash != context.lastHash)
{
context.resultOffset = 0;
context.selectedOffset = 0;
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context.lastHash = currentFontIconHash;
}
// Update results for query and scroll
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context.lastQuery = std::string(&edit->buffer[fontIconStart], edit->cursor - fontIconStart);
stringSearchStartWith.Format(context.lastQuery.c_str());
UpdateAutocompleteContextResults(context, font, textXScale);
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}
void TextRenderer::DrawAutocompleteModifiers(const FontIconAutocompleteContext& context, const float x, const float y, Game::Font_s* font, float textXScale, float textYScale)
{
const auto textWidth = std::max(std::max(std::max(stringListHeader.GetWidth(font), stringListFlipHorizontal.GetWidth(font)),
stringListFlipVertical.GetWidth(font)),
stringListBig.GetWidth(font));
const auto boxWidth = static_cast<float>(textWidth) * textXScale;
constexpr auto totalLines = 4u;
const auto lineHeight = static_cast<float>(font->pixelHeight) * textYScale;
DrawAutocompleteBox(context,
x - FONT_ICON_AUTOCOMPLETE_BOX_PADDING,
y - FONT_ICON_AUTOCOMPLETE_BOX_PADDING,
boxWidth + FONT_ICON_AUTOCOMPLETE_BOX_PADDING * 2,
static_cast<float>(totalLines) * lineHeight + FONT_ICON_AUTOCOMPLETE_BOX_PADDING * 2,
(*con_inputBoxColor)->current.vector);
auto currentY = y + lineHeight;
Game::R_AddCmdDrawText(stringListHeader.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
currentY += lineHeight;
Game::R_AddCmdDrawText(stringListFlipHorizontal.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
currentY += lineHeight;
Game::R_AddCmdDrawText(stringListFlipVertical.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
currentY += lineHeight;
Game::R_AddCmdDrawText(stringListBig.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
}
void TextRenderer::DrawAutocompleteResults(const FontIconAutocompleteContext& context, const float x, const float y, Game::Font_s* font, const float textXScale, const float textYScale)
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{
const auto hintEnabled = cg_fontIconAutocompleteHint.get<bool>();
auto longestStringLength = stringSearchStartWith.GetWidth(font);
if(hintEnabled)
longestStringLength = std::max(std::max(longestStringLength, stringHintAutoComplete.GetWidth(font)), stringHintModifier.GetWidth(font));
const auto colSpacing = FONT_ICON_AUTOCOMPLETE_COL_SPACING * textXScale;
const auto boxWidth = std::max(context.maxFontIconWidth + context.maxMaterialNameWidth + colSpacing, static_cast<float>(longestStringLength) * textXScale);
const auto lineHeight = static_cast<float>(font->pixelHeight) * textYScale;
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const auto totalLines = 1u + context.resultCount + (hintEnabled ? 2u : 0u);
const auto arrowPadding = context.resultOffset > 0 || context.hasMoreResults ? FONT_ICON_AUTOCOMPLETE_ARROW_SIZE : 0.0f;
DrawAutocompleteBox(context,
x - FONT_ICON_AUTOCOMPLETE_BOX_PADDING,
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y - FONT_ICON_AUTOCOMPLETE_BOX_PADDING,
boxWidth + FONT_ICON_AUTOCOMPLETE_BOX_PADDING * 2 + arrowPadding,
static_cast<float>(totalLines) * lineHeight + FONT_ICON_AUTOCOMPLETE_BOX_PADDING * 2,
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(*con_inputBoxColor)->current.vector);
auto currentY = y + lineHeight;
Game::R_AddCmdDrawText(stringSearchStartWith.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
currentY += lineHeight;
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const auto selectedIndex = context.selectedOffset - context.resultOffset;
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for(auto resultIndex = 0u; resultIndex < context.resultCount; resultIndex++)
{
const auto& result = context.results[resultIndex];
Game::R_AddCmdDrawText(result.fontIconName.c_str(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
if (selectedIndex == resultIndex)
Game::R_AddCmdDrawText(Utils::String::VA("^2%s", result.materialName.c_str()), std::numeric_limits<int>::max(), font, x + context.maxFontIconWidth + colSpacing, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
else
Game::R_AddCmdDrawText(result.materialName.c_str(), std::numeric_limits<int>::max(), font, x + context.maxFontIconWidth + colSpacing, currentY, textXScale, textYScale, 0.0, TEXT_COLOR, 0);
currentY += lineHeight;
}
if(hintEnabled)
{
Game::R_AddCmdDrawText(stringHintAutoComplete.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, HINT_COLOR, 0);
currentY += lineHeight;
Game::R_AddCmdDrawText(stringHintModifier.GetString(), std::numeric_limits<int>::max(), font, x, currentY, textXScale, textYScale, 0.0, HINT_COLOR, 0);
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}
}
void TextRenderer::DrawAutocomplete(const FontIconAutocompleteContext& context, const float x, const float y, Game::Font_s* font, const float textXScale, const float textYScale)
{
if (context.inModifiers)
DrawAutocompleteModifiers(context, x, y, font, textXScale, textYScale);
else
DrawAutocompleteResults(context, x, y, font, textXScale, textYScale);
}
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void TextRenderer::Con_DrawInput_Hk(const int localClientNum)
{
// Call original function
Utils::Hook::Call<void(int)>(0x5A4480)(localClientNum);
auto& autocompleteContext = autocompleteContextArray[FONT_ICON_ACI_CONSOLE];
if (cg_fontIconAutocomplete.get<bool>() == false)
{
autocompleteContext.autocompleteActive = false;
return;
}
UpdateAutocompleteContext(autocompleteContext, Game::g_consoleField, Game::cls->consoleFont, 1.0f);
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if (autocompleteContext.autocompleteActive)
{
const auto x = Game::conDrawInputGlob->leftX;
const auto y = Game::con_screenMin[1] + 6.0f + static_cast<float>(2 * Game::R_TextHeight(Game::cls->consoleFont));
DrawAutocomplete(autocompleteContext, x, y, Game::cls->consoleFont, 1.0f, 1.0f);
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}
}
void TextRenderer::Field_Draw_Say(const int localClientNum, Game::field_t* edit, const int x, const int y, const int horzAlign, const int vertAlign)
{
Game::Field_Draw(localClientNum, edit, x, y, horzAlign, vertAlign);
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auto& autocompleteContext = autocompleteContextArray[FONT_ICON_ACI_CHAT];
if (cg_fontIconAutocomplete.get<bool>() == false)
{
autocompleteContext.autocompleteActive = false;
return;
}
auto* screenPlacement = Game::ScrPlace_GetActivePlacement(localClientNum);
const auto scale = edit->charHeight / 48.0f;
auto* font = Game::UI_GetFontHandle(screenPlacement, 0, scale);
const auto normalizedScale = Game::R_NormalizedTextScale(font, scale);
auto xx = static_cast<float>(x);
auto yy = static_cast<float>(y);
yy += static_cast<float>(Game::R_TextHeight(font)) * normalizedScale * 1.5f;
auto ww = normalizedScale;
auto hh = normalizedScale;
Game::ScrPlace_ApplyRect(screenPlacement, &xx, &yy, &ww, &hh, horzAlign, vertAlign);
UpdateAutocompleteContext(autocompleteContext, edit, font, ww);
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if (autocompleteContext.autocompleteActive)
{
DrawAutocomplete(autocompleteContext, std::floor(xx), std::floor(yy), font, ww, hh);
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}
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}
void TextRenderer::AutocompleteUp(FontIconAutocompleteContext& context)
{
if (context.selectedOffset > 0)
context.selectedOffset--;
}
void TextRenderer::AutocompleteDown(FontIconAutocompleteContext& context)
{
if (context.resultCount < FontIconAutocompleteContext::MAX_RESULTS)
{
if (context.resultCount > 0 && context.selectedOffset < context.resultOffset + context.resultCount - 1)
context.selectedOffset++;
}
else if (context.selectedOffset == context.resultOffset + context.resultCount - 1)
{
if (context.hasMoreResults)
context.selectedOffset++;
}
else
{
context.selectedOffset++;
}
}
void TextRenderer::AutocompleteFill(const FontIconAutocompleteContext& context, Game::ScreenPlacement* scrPlace, Game::field_t* edit, const bool closeFontIcon)
{
if (context.selectedOffset >= context.resultOffset + context.resultCount)
return;
const auto selectedResultIndex = context.selectedOffset - context.resultOffset;
std::string remainingFillData = context.results[selectedResultIndex].materialName.substr(context.lastQuery.size());
if (closeFontIcon)
remainingFillData += ":";
const std::string moveData(&edit->buffer[edit->cursor]);
const auto remainingBufferCharacters = std::extent_v<decltype(Game::field_t::buffer)> - edit->cursor - moveData.size() - 1;
if(remainingFillData.size() > remainingBufferCharacters)
remainingFillData = remainingFillData.erase(remainingBufferCharacters);
if(!remainingFillData.empty())
{
strncpy(&edit->buffer[edit->cursor], remainingFillData.c_str(), remainingFillData.size());
strncpy(&edit->buffer[edit->cursor + remainingFillData.size()], moveData.c_str(), moveData.size());
edit->buffer[std::extent_v<decltype(Game::field_t::buffer)> - 1] = '\0';
edit->cursor += static_cast<int>(remainingFillData.size());
Game::Field_AdjustScroll(scrPlace, edit);
}
}
bool TextRenderer::AutocompleteHandleKeyDown(FontIconAutocompleteContext& context, const int key, Game::ScreenPlacement* scrPlace, Game::field_t* edit)
{
switch (key)
{
case Game::K_UPARROW:
case Game::K_KP_UPARROW:
AutocompleteUp(context);
return true;
case Game::K_DOWNARROW:
case Game::K_KP_DOWNARROW:
AutocompleteDown(context);
return true;
case Game::K_ENTER:
case Game::K_KP_ENTER:
if(context.resultCount > 0)
{
AutocompleteFill(context, scrPlace, edit, true);
return true;
}
return false;
case Game::K_TAB:
AutocompleteFill(context, scrPlace, edit, false);
return true;
case Game::K_ESCAPE:
if (!context.userClosed)
{
context.autocompleteActive = false;
context.userClosed = true;
return true;
}
return false;
default:
return false;
}
}
bool TextRenderer::HandleFontIconAutocompleteKey(const int localClientNum, const FontIconAutocompleteInstance autocompleteInstance, const int key)
{
assert(autocompleteInstance < FONT_ICON_ACI_COUNT);
if (autocompleteInstance >= FONT_ICON_ACI_COUNT)
return false;
auto& autocompleteContext = autocompleteContextArray[autocompleteInstance];
if (!autocompleteContext.autocompleteActive)
return false;
if(autocompleteInstance == FONT_ICON_ACI_CONSOLE)
return AutocompleteHandleKeyDown(autocompleteContext, key, Game::scrPlaceFull, Game::g_consoleField);
if(autocompleteInstance == FONT_ICON_ACI_CHAT)
return AutocompleteHandleKeyDown(autocompleteContext, key, &Game::scrPlaceView[localClientNum], &Game::playerKeys[localClientNum].chatField);
return false;
}
void TextRenderer::Console_Key_Hk(const int localClientNum, const int key)
{
if (HandleFontIconAutocompleteKey(localClientNum, FONT_ICON_ACI_CONSOLE, key))
return;
Utils::Hook::Call<void(int, int)>(0x4311E0)(localClientNum, key);
}
bool TextRenderer::ChatHandleKeyDown(const int localClientNum, const int key)
{
return HandleFontIconAutocompleteKey(localClientNum, FONT_ICON_ACI_CHAT, key);
}
constexpr auto Message_Key = 0x5A7E50;
__declspec(naked) void TextRenderer::Message_Key_Stub()
{
__asm
{
pushad
push eax
push edi
call ChatHandleKeyDown
add esp, 0x8
test al,al
jnz skipHandling
popad
call Message_Key
ret
skipHandling:
popad
mov al, 1
ret
}
}
float TextRenderer::GetMonospaceWidth(Game::Font_s* font, int rendererFlags)
{
if(rendererFlags & Game::TEXT_RENDERFLAG_FORCEMONOSPACE)
return Game::R_GetCharacterGlyph(font, 'o')->dx;
return 0.0f;
}
void TextRenderer::GlowColor(Game::GfxColor* result, const Game::GfxColor baseColor, const Game::GfxColor forcedGlowColor, int renderFlags)
{
if (renderFlags & Game::TEXT_RENDERFLAG_GLOW_FORCE_COLOR)
{
result->array[0] = forcedGlowColor.array[0];
result->array[1] = forcedGlowColor.array[1];
result->array[2] = forcedGlowColor.array[2];
}
else
{
result->array[0] = static_cast<char>(std::floor(static_cast<float>(static_cast<uint8_t>(baseColor.array[0])) * 0.06f));
result->array[1] = static_cast<char>(std::floor(static_cast<float>(static_cast<uint8_t>(baseColor.array[1])) * 0.06f));
result->array[2] = static_cast<char>(std::floor(static_cast<float>(static_cast<uint8_t>(baseColor.array[2])) * 0.06f));
}
}
unsigned TextRenderer::R_FontGetRandomLetter(const int seed)
{
static constexpr char RANDOM_CHARACTERS[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz1234567890";
return RANDOM_CHARACTERS[seed % (std::extent_v<decltype(RANDOM_CHARACTERS)> -1)];
}
void TextRenderer::DrawTextFxExtraCharacter(Game::Material* material, const int charIndex, const float x, const float y, const float w, const float h, const float sinAngle, const float cosAngle, const unsigned color)
{
Game::RB_DrawStretchPicRotate(material, x, y, w, h, static_cast<float>(charIndex % 16) * 0.0625f, 0.0f, static_cast<float>(charIndex % 16) * 0.0625f + 0.0625f, 1.0f, sinAngle, cosAngle, color);
}
Game::GfxImage* TextRenderer::GetFontIconColorMap(const Game::Material* fontIconMaterial)
{
for (auto i = 0u; i < fontIconMaterial->textureCount; i++)
{
if (fontIconMaterial->textureTable[i].nameHash == COLOR_MAP_HASH)
return fontIconMaterial->textureTable[i].u.image;
}
return nullptr;
}
bool TextRenderer::IsFontIcon(const char*& text, FontIconInfo& fontIcon)
{
const auto* curPos = text;
while (*curPos != ' ' && *curPos != FONT_ICON_SEPARATOR_CHARACTER && *curPos != 0 && *curPos != FONT_ICON_MODIFIER_SEPARATOR_CHARACTER)
curPos++;
const auto* nameEnd = curPos;
if(*curPos == FONT_ICON_MODIFIER_SEPARATOR_CHARACTER)
{
auto breakArgs = false;
while(!breakArgs)
{
curPos++;
switch(*curPos)
{
case FONT_ICON_MODIFIER_FLIP_HORIZONTALLY:
fontIcon.flipHorizontal = true;
break;
case FONT_ICON_MODIFIER_FLIP_VERTICALLY:
fontIcon.flipVertical = true;
break;
case FONT_ICON_MODIFIER_BIG:
fontIcon.big = true;
break;
case FONT_ICON_SEPARATOR_CHARACTER:
breakArgs = true;
break;
default:
return false;
}
}
}
if (*curPos != FONT_ICON_SEPARATOR_CHARACTER)
return false;
const std::string fontIconName(text, nameEnd - text);
const auto foundFontIcon = fontIconLookup.find(fontIconName);
if (foundFontIcon == fontIconLookup.end())
return false;
auto& entry = foundFontIcon->second;
if(entry.material == nullptr)
{
auto* materialEntry = Game::DB_FindXAssetEntry(Game::XAssetType::ASSET_TYPE_MATERIAL, entry.materialName.data());
if (materialEntry == nullptr)
return false;
auto* material = materialEntry->asset.header.material;
if (material == nullptr || material->techniqueSet == nullptr || material->techniqueSet->name == nullptr)
return false;
if(strcmp(material->techniqueSet->name, "2d") != 0)
{
Logger::Print("^1Fonticon material '%s' does not have 2d techset!\n", material->info.name);
material = Game::DB_FindXAssetHeader(Game::ASSET_TYPE_MATERIAL, "default").material;
}
entry.material = material;
}
text = curPos + 1;
fontIcon.material = entry.material;
return true;
}
float TextRenderer::GetNormalizedFontIconWidth(const FontIconInfo& fontIcon)
{
const auto* colorMap = GetFontIconColorMap(fontIcon.material);
if (colorMap == nullptr)
return 0;
const auto sizeMultiplier = fontIcon.big ? 1.5f : 1.0f;
auto colWidth = static_cast<float>(colorMap->width);
auto colHeight = static_cast<float>(colorMap->height);
if (fontIcon.material->info.textureAtlasColumnCount > 1)
colWidth /= static_cast<float>(fontIcon.material->info.textureAtlasColumnCount);
if (fontIcon.material->info.textureAtlasRowCount > 1)
colHeight /= static_cast<float>(fontIcon.material->info.textureAtlasRowCount);
return (colWidth / colHeight) * sizeMultiplier;
}
float TextRenderer::GetFontIconWidth(const FontIconInfo& fontIcon, const Game::Font_s* font, const float xScale)
{
const auto* colorMap = GetFontIconColorMap(fontIcon.material);
if (colorMap == nullptr)
return 0;
const auto sizeMultiplier = fontIcon.big ? 1.5f : 1.0f;
auto colWidth = static_cast<float>(colorMap->width);
auto colHeight = static_cast<float>(colorMap->height);
if (fontIcon.material->info.textureAtlasColumnCount > 1)
colWidth /= static_cast<float>(fontIcon.material->info.textureAtlasColumnCount);
if (fontIcon.material->info.textureAtlasRowCount > 1)
colHeight /= static_cast<float>(fontIcon.material->info.textureAtlasRowCount);
return static_cast<float>(font->pixelHeight) * (colWidth / colHeight) * xScale * sizeMultiplier;
}
float TextRenderer::DrawFontIcon(const FontIconInfo& fontIcon, const float x, const float y, const float sinAngle, const float cosAngle, const Game::Font_s* font, const float xScale, const float yScale, const unsigned color)
{
const auto* colorMap = GetFontIconColorMap(fontIcon.material);
if (colorMap == nullptr)
return 0;
float s0, t0, s1, t1;
if(fontIcon.flipHorizontal)
{
s0 = 1.0f;
s1 = 0.0f;
}
else
{
s0 = 0.0f;
s1 = 1.0f;
}
if(fontIcon.flipVertical)
{
t0 = 1.0f;
t1 = 0.0f;
}
else
{
t0 = 0.0f;
t1 = 1.0f;
}
Game::Material_Process2DTextureCoordsForAtlasing(fontIcon.material, &s0, &s1, &t0, &t1);
const auto sizeMultiplier = fontIcon.big ? 1.5f : 1.0f;
auto colWidth = static_cast<float>(colorMap->width);
auto colHeight = static_cast<float>(colorMap->height);
if (fontIcon.material->info.textureAtlasColumnCount > 1)
colWidth /= static_cast<float>(fontIcon.material->info.textureAtlasColumnCount);
if (fontIcon.material->info.textureAtlasRowCount > 1)
colHeight /= static_cast<float>(fontIcon.material->info.textureAtlasRowCount);
const auto h = static_cast<float>(font->pixelHeight) * yScale * sizeMultiplier;
const auto w = static_cast<float>(font->pixelHeight) * (colWidth / colHeight) * xScale * sizeMultiplier;
const auto yy = y - (h + yScale * static_cast<float>(font->pixelHeight)) * 0.5f;
Game::RB_DrawStretchPicRotate(fontIcon.material, x, yy, w, h, s0, t0, s1, t1, sinAngle, cosAngle, color);
return w;
}
float TextRenderer::DrawHudIcon(const char*& text, const float x, const float y, const float sinAngle, const float cosAngle, const Game::Font_s* font, const float xScale, const float yScale, const unsigned color)
{
float s0, s1, t0, t1;
if(*text == '\x01')
{
s0 = 0.0;
t0 = 0.0;
s1 = 1.0;
t1 = 1.0;
}
else
{
s0 = 1.0;
t0 = 0.0;
s1 = 0.0;
t1 = 1.0;
}
text++;
if (*text == 0)
return 0;
const auto v12 = font->pixelHeight * (*text - 16) + 16;
const auto w = static_cast<float>((((v12 >> 24) & 0x1F) + v12) >> 5) * xScale;
text++;
if (*text == 0)
return 0;
const auto h = static_cast<float>((font->pixelHeight * (*text - 16) + 16) >> 5) * yScale;
text++;
if (*text == 0)
return 0;
const auto materialNameLen = static_cast<uint8_t>(*text);
text++;
for(auto i = 0u; i < materialNameLen; i++)
{
if (text[i] == 0)
return 0;
}
const std::string materialName(text, materialNameLen);
text += materialNameLen;
auto* material = Game::DB_FindXAssetHeader(Game::XAssetType::ASSET_TYPE_MATERIAL, materialName.data()).material;
if (material == nullptr || material->techniqueSet == nullptr || material->techniqueSet->name == nullptr || strcmp(material->techniqueSet->name, "2d") != 0)
material = Game::DB_FindXAssetHeader(Game::XAssetType::ASSET_TYPE_MATERIAL, "default").material;
const auto yy = y - (h + yScale * static_cast<float>(font->pixelHeight)) * 0.5f;
Game::RB_DrawStretchPicRotate(material, x, yy, w, h, s0, t0, s1, t1, sinAngle, cosAngle, color);
return w;
}
void TextRenderer::RotateXY(const float cosAngle, const float sinAngle, const float pivotX, const float pivotY, const float x, const float y, float* outX, float* outY)
{
*outX = (x - pivotX) * cosAngle + pivotX - (y - pivotY) * sinAngle;
*outY = (y - pivotY) * cosAngle + pivotY + (x - pivotX) * sinAngle;
}
void TextRenderer::DrawText2D(const char* text, float x, float y, Game::Font_s* font, float xScale, float yScale, float sinAngle, float cosAngle, Game::GfxColor color, int maxLength, int renderFlags, int cursorPos, char cursorLetter, float padding, Game::GfxColor glowForcedColor, int fxBirthTime, int fxLetterTime, int fxDecayStartTime, int fxDecayDuration, Game::Material* fxMaterial, Game::Material* fxMaterialGlow)
{
UpdateColorTable();
Game::GfxColor dropShadowColor{0};
dropShadowColor.array[3] = color.array[3];
int randSeed = 1;
bool drawRandomCharAtEnd = false;
const auto forceMonospace = renderFlags & Game::TEXT_RENDERFLAG_FORCEMONOSPACE;
const auto monospaceWidth = GetMonospaceWidth(font, renderFlags);
auto* material = font->material;
Game::Material* glowMaterial = nullptr;
bool decaying;
int decayTimeElapsed;
if(renderFlags & Game::TEXT_RENDERFLAG_FX_DECODE)
{
if (!Game::SetupPulseFXVars(text, maxLength, fxBirthTime, fxLetterTime, fxDecayStartTime, fxDecayDuration, &drawRandomCharAtEnd, &randSeed, &maxLength, &decaying, &decayTimeElapsed))
return;
}
else
{
drawRandomCharAtEnd = false;
randSeed = 1;
decaying = false;
decayTimeElapsed = 0;
}
Game::FontPassType passes[Game::FONTPASS_COUNT];
unsigned passCount = 0;
if(renderFlags & Game::TEXT_RENDERFLAG_OUTLINE)
{
if(renderFlags & Game::TEXT_RENDERFLAG_GLOW)
{
glowMaterial = font->glowMaterial;
passes[passCount++] = Game::FONTPASS_GLOW;
}
passes[passCount++] = Game::FONTPASS_OUTLINE;
passes[passCount++] = Game::FONTPASS_NORMAL;
}
else
{
passes[passCount++] = Game::FONTPASS_NORMAL;
if (renderFlags & Game::TEXT_RENDERFLAG_GLOW)
{
glowMaterial = font->glowMaterial;
passes[passCount++] = Game::FONTPASS_GLOW;
}
}
const auto startX = x - xScale * 0.5f;
const auto startY = y - 0.5f * yScale;
for(auto passIndex = 0u; passIndex < passCount; passIndex++)
{
float xRot, yRot;
const char* curText = text;
auto maxLengthRemaining = maxLength;
auto currentColor = color;
auto subtitleAllowGlow = false;
auto extraFxChar = 0;
auto drawExtraFxChar = false;
auto passRandSeed = randSeed;
auto count = 0;
auto xa = startX;
auto xy = startY;
while(*curText && maxLengthRemaining)
{
if (passes[passIndex] == Game::FONTPASS_NORMAL && renderFlags & Game::TEXT_RENDERFLAG_CURSOR && count == cursorPos)
{
RotateXY(cosAngle, sinAngle, startX, startY, xa, xy, &xRot, &yRot);
Game::RB_DrawCursor(material, cursorLetter, xRot, yRot, sinAngle, cosAngle, font, xScale, yScale, color.packed);
}
auto letter = Game::SEH_ReadCharFromString(&curText, nullptr);
if(letter == '^' && *curText >= COLOR_FIRST_CHAR && *curText <= COLOR_LAST_CHAR)
{
const auto colorIndex = ColorIndexForChar(*curText);
subtitleAllowGlow = false;
if (colorIndex == TEXT_COLOR_DEFAULT)
{
currentColor = color;
}
else if (renderFlags & Game::TEXT_RENDERFLAG_SUBTITLETEXT && colorIndex == TEXT_COLOR_GREEN)
{
constexpr Game::GfxColor altColor{ MY_ALTCOLOR_TWO };
subtitleAllowGlow = true;
// Swap r and b for whatever reason
currentColor.packed = ColorRgba(altColor.array[2], altColor.array[1], altColor.array[0], Game::ModulateByteColors(altColor.array[3], color.array[3]));
}
else
{
const Game::GfxColor colorTableColor{ (*currentColorTable)[colorIndex] };
// Swap r and b for whatever reason
currentColor.packed = ColorRgba(colorTableColor.array[2], colorTableColor.array[1], colorTableColor.array[0], color.array[3]);
}
if(!(renderFlags & Game::TEXT_RENDERFLAG_CURSOR && cursorPos > count && cursorPos < count + 2))
{
curText++;
count += 2;
continue;
}
}
auto finalColor = currentColor;
if(letter == '^' && (*curText == '\x01' || *curText == '\x02'))
{
RotateXY(cosAngle, sinAngle, startX, startY, xa, xy, &xRot, &yRot);
2021-09-12 09:46:24 -04:00
xa += DrawHudIcon(curText, xRot, yRot, sinAngle, cosAngle, font, xScale, yScale, ColorRgba(255, 255, 255, finalColor.array[3]));
if (renderFlags & Game::TEXT_RENDERFLAG_PADDING)
xa += xScale * padding;
++count;
maxLengthRemaining--;
continue;
}
if(letter == FONT_ICON_SEPARATOR_CHARACTER)
{
FontIconInfo fontIconInfo{};
const char* fontIconEnd = curText;
if(IsFontIcon(fontIconEnd, fontIconInfo) && !(renderFlags & Game::TEXT_RENDERFLAG_CURSOR && cursorPos > count && cursorPos <= count + (fontIconEnd - curText)))
{
RotateXY(cosAngle, sinAngle, startX, startY, xa, xy, &xRot, &yRot);
if(passes[passIndex] == Game::FONTPASS_NORMAL)
xa += DrawFontIcon(fontIconInfo, xRot, yRot, sinAngle, cosAngle, font, xScale, yScale, ColorRgba(255, 255, 255, finalColor.array[3]));
else
xa += GetFontIconWidth(fontIconInfo, font, xScale);
if (renderFlags & Game::TEXT_RENDERFLAG_PADDING)
xa += xScale * padding;
count += (fontIconEnd - curText) + 1;
maxLengthRemaining--;
curText = fontIconEnd;
continue;
}
}
if(drawRandomCharAtEnd && maxLengthRemaining == 1)
{
letter = R_FontGetRandomLetter(Game::RandWithSeed(&passRandSeed));
if(Game::RandWithSeed(&passRandSeed) % 2)
{
drawExtraFxChar = true;
letter = 'O';
}
}
if(letter == '\n')
{
xa = startX;
xy += static_cast<float>(font->pixelHeight) * yScale;
continue;
}
if(letter == '\r')
{
xy += static_cast<float>(font->pixelHeight) * yScale;
continue;
}
auto skipDrawing = false;
if(decaying)
{
char decayAlpha;
Game::GetDecayingLetterInfo(letter, &passRandSeed, decayTimeElapsed, fxBirthTime, fxDecayDuration, currentColor.array[3], &skipDrawing, &decayAlpha, &letter, &drawExtraFxChar);
finalColor.array[3] = decayAlpha;
}
if(drawExtraFxChar)
{
auto tempSeed = passRandSeed;
extraFxChar = Game::RandWithSeed(&tempSeed);
}
auto glyph = Game::R_GetCharacterGlyph(font, letter);
auto xAdj = static_cast<float>(glyph->x0) * xScale;
auto yAdj = static_cast<float>(glyph->y0) * yScale;
if(!skipDrawing)
{
if (passes[passIndex] == Game::FONTPASS_NORMAL)
{
if (renderFlags & Game::TEXT_RENDERFLAG_DROPSHADOW)
{
auto ofs = 1.0f;
if (renderFlags & Game::TEXT_RENDERFLAG_DROPSHADOW_EXTRA)
ofs += 1.0f;
xRot = xa + xAdj + ofs;
yRot = xy + yAdj + ofs;
RotateXY(cosAngle, sinAngle, startX, startY, xRot, yRot, &xRot, &yRot);
if (drawExtraFxChar)
DrawTextFxExtraCharacter(fxMaterial, extraFxChar, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, dropShadowColor.packed);
else
Game::RB_DrawChar(material, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, glyph, dropShadowColor.packed);
}
RotateXY(cosAngle, sinAngle, startX, startY, xa + xAdj, xy + yAdj, &xRot, &yRot);
if (drawExtraFxChar)
DrawTextFxExtraCharacter(fxMaterial, extraFxChar, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, finalColor.packed);
else
Game::RB_DrawChar(material, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, glyph, finalColor.packed);
}
else if(passes[passIndex] == Game::FONTPASS_OUTLINE)
{
auto outlineSize = 1.0f;
if (renderFlags & Game::TEXT_RENDERFLAG_OUTLINE_EXTRA)
outlineSize = 1.3f;
for (const auto offset : MY_OFFSETS)
{
RotateXY(cosAngle, sinAngle, startX, startY, xa + xAdj + outlineSize * offset[0], xy + yAdj + outlineSize * offset[1], &xRot, &yRot);
if (drawExtraFxChar)
DrawTextFxExtraCharacter(fxMaterial, extraFxChar, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, dropShadowColor.packed);
else
Game::RB_DrawChar(material, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, glyph, dropShadowColor.packed);
}
}
else if(passes[passIndex] == Game::FONTPASS_GLOW && ((renderFlags & Game::TEXT_RENDERFLAG_SUBTITLETEXT) == 0 || subtitleAllowGlow))
{
GlowColor(&finalColor, finalColor, glowForcedColor, renderFlags);
for (const auto offset : MY_OFFSETS)
{
RotateXY(cosAngle, sinAngle, startX, startY, xa + xAdj + 2.0f * offset[0] * xScale, xy + yAdj + 2.0f * offset[1] * yScale, &xRot, &yRot);
if (drawExtraFxChar)
DrawTextFxExtraCharacter(fxMaterialGlow, extraFxChar, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, finalColor.packed);
else
Game::RB_DrawChar(glowMaterial, xRot, yRot, static_cast<float>(glyph->pixelWidth) * xScale, static_cast<float>(glyph->pixelHeight) * yScale, sinAngle, cosAngle, glyph, finalColor.packed);
}
}
}
if(forceMonospace)
xa += monospaceWidth * xScale;
else
xa += static_cast<float>(glyph->dx) * xScale;
if (renderFlags & Game::TEXT_RENDERFLAG_PADDING)
xa += xScale * padding;
count++;
maxLengthRemaining--;
}
if(renderFlags & Game::TEXT_RENDERFLAG_CURSOR && count == cursorPos)
{
RotateXY(cosAngle, sinAngle, startX, startY, xa, xy, &xRot, &yRot);
Game::RB_DrawCursor(material, cursorLetter, xRot, yRot, sinAngle, cosAngle, font, xScale, yScale, color.packed);
}
}
}
int TextRenderer::R_TextWidth_Hk(const char* text, int maxChars, Game::Font_s* font)
{
auto lineWidth = 0;
auto maxWidth = 0;
if (maxChars <= 0)
maxChars = std::numeric_limits<int>::max();
if (text == nullptr)
return 0;
auto count = 0;
while (text && *text && count < maxChars)
{
const auto letter = Game::SEH_ReadCharFromString(&text, nullptr);
if (letter == '\r' || letter == '\n')
{
lineWidth = 0;
}
else
{
if (letter == '^' && text)
{
if (*text >= COLOR_FIRST_CHAR && *text <= COLOR_LAST_CHAR)
{
text++;
continue;
}
if (*text >= '\x01' && *text <= '\x02' && text[1] != '\0' && text[2] != '\0' && text[3] != '\0')
{
const auto width = text[1];
const auto materialNameLength = text[3];
// This is how the game calculates width and height. Probably some 1 byte floating point number.
// Details to be investigated if necessary.
const auto v9 = font->pixelHeight * (width - 16) + 16;
const auto w = ((((v9 >> 24) & 0x1F) + v9) >> 5);
lineWidth += w;
if (lineWidth > maxWidth)
maxWidth = lineWidth;
text += 4;
for (auto currentLength = 0; currentLength < materialNameLength && *text; currentLength++)
text++;
continue;
}
}
if (letter == FONT_ICON_SEPARATOR_CHARACTER)
{
FontIconInfo fontIconInfo{};
const char* fontIconEnd = text;
if (IsFontIcon(fontIconEnd, fontIconInfo))
{
lineWidth += static_cast<int>(GetFontIconWidth(fontIconInfo, font, 1.0f));
if (lineWidth > maxWidth)
maxWidth = lineWidth;
text = fontIconEnd;
continue;
}
}
lineWidth += R_GetCharacterGlyph(font, letter)->dx;
if (lineWidth > maxWidth)
maxWidth = lineWidth;
count++;
}
}
return maxWidth;
}
unsigned int TextRenderer::ColorIndex(const char index)
{
auto result = index - '0';
if (static_cast<unsigned int>(result) >= TEXT_COLOR_COUNT || result < 0) result = 7;
return result;
}
void TextRenderer::StripColors(const char* in, char* out, size_t max)
{
if (!in || !out) return;
max--;
size_t current = 0;
while (*in != 0 && current < max)
{
const char index = *(in + 1);
if (*in == '^' && (ColorIndex(index) != 7 || index == '7'))
{
++in;
}
else
{
*out = *in;
++out;
++current;
}
++in;
}
*out = '\0';
}
std::string TextRenderer::StripColors(const std::string& in)
{
char buffer[1000] = { 0 }; // Should be more than enough
StripColors(in.data(), buffer, sizeof(buffer));
return std::string(buffer);
}
void TextRenderer::StripMaterialTextIcons(const char* in, char* out, size_t max)
{
if (!in || !out) return;
max--;
size_t current = 0;
while (*in != 0 && current < max)
{
if (*in == '^' && (in[1] == '\x01' || in[1] == '\x02'))
{
in += 2;
if (*in) // width
in++;
if (*in) // height
in++;
if(*in) // material name length + material name characters
{
const auto materialNameLength = *in;
in++;
for(auto i = 0; i < materialNameLength; i++)
{
if (*in)
in++;
}
}
}
else
{
*out = *in;
++out;
++current;
++in;
}
}
*out = '\0';
}
std::string TextRenderer::StripMaterialTextIcons(const std::string& in)
{
char buffer[1000] = { 0 }; // Should be more than enough
StripAllTextIcons(in.data(), buffer, sizeof(buffer));
return std::string(buffer);
}
void TextRenderer::StripAllTextIcons(const char* in, char* out, size_t max)
{
if (!in || !out) return;
max--;
size_t current = 0;
while (*in != 0 && current < max)
{
if (*in == '^' && (in[1] == '\x01' || in[1] == '\x02'))
{
in += 2;
if (*in) // width
in++;
if (*in) // height
in++;
if(*in) // material name length + material name characters
{
const auto materialNameLength = *in;
in++;
for(auto i = 0; i < materialNameLength; i++)
{
if (*in)
in++;
}
}
continue;
}
if(*in == FONT_ICON_SEPARATOR_CHARACTER)
{
const auto* fontIconEndPos = &in[1];
FontIconInfo fontIcon{};
if(IsFontIcon(fontIconEndPos, fontIcon))
{
in = fontIconEndPos;
continue;
}
}
*out = *in;
++out;
++current;
++in;
}
*out = '\0';
}
std::string TextRenderer::StripAllTextIcons(const std::string& in)
{
char buffer[1000] = { 0 }; // Should be more than enough
StripAllTextIcons(in.data(), buffer, sizeof(buffer));
return std::string(buffer);
}
int TextRenderer::SEH_PrintStrlenWithCursor(const char* string, const Game::field_t* field)
{
if (!string)
return 0;
const auto cursorPos = field->cursor;
auto len = 0;
auto lenWithInvisibleTail = 0;
auto count = 0;
const auto* curText = string;
while(*curText)
{
const auto c = Game::SEH_ReadCharFromString(&curText, nullptr);
lenWithInvisibleTail = len;
if (c == '^' && *curText >= COLOR_FIRST_CHAR && *curText <= COLOR_LAST_CHAR && !(cursorPos > count && cursorPos < count + 2))
{
curText++;
count++;
}
else if(c != '\r' && c != '\n')
{
len++;
}
count++;
lenWithInvisibleTail++;
}
return lenWithInvisibleTail;
}
__declspec(naked) void TextRenderer::Field_AdjustScroll_PrintLen_Stub()
{
__asm
{
push eax
pushad
push esi
push [esp + 0x8 + 0x24]
call SEH_PrintStrlenWithCursor
add esp, 0x8
mov [esp + 0x20], eax
popad
pop eax
ret
}
}
void TextRenderer::PatchColorLimit(const char limit)
{
Utils::Hook::Set<char>(0x535629, limit); // DrawText2d
Utils::Hook::Set<char>(0x4C1BE4, limit); // SEH_PrintStrlen
Utils::Hook::Set<char>(0x4863DD, limit); // No idea :P
Utils::Hook::Set<char>(0x486429, limit); // No idea :P
Utils::Hook::Set<char>(0x49A5A8, limit); // No idea :P
Utils::Hook::Set<char>(0x505721, limit); // R_TextWidth
Utils::Hook::Set<char>(0x505801, limit); // No idea :P
Utils::Hook::Set<char>(0x50597F, limit); // No idea :P
Utils::Hook::Set<char>(0x5815DB, limit); // No idea :P
Utils::Hook::Set<char>(0x592ED0, limit); // No idea :P
Utils::Hook::Set<char>(0x5A2E2E, limit); // No idea :P
Utils::Hook::Set<char>(0x5A2733, static_cast<char>(ColorIndexForChar(limit))); // No idea :P
}
// Patches team overhead normally
bool TextRenderer::Dvar_GetUnpackedColorByName(const char* name, float* expandedColor)
{
if (r_colorBlind.get<bool>())
{
const auto str = std::string(name);
if (str == "g_TeamColor_EnemyTeam")
{
// Dvar_GetUnpackedColor
const auto* colorblindEnemy = g_ColorBlind_EnemyTeam->current.color;
expandedColor[0] = static_cast<float>(colorblindEnemy[0]) / 255.0f;
expandedColor[1] = static_cast<float>(colorblindEnemy[1]) / 255.0f;
expandedColor[2] = static_cast<float>(colorblindEnemy[2]) / 255.0f;
expandedColor[3] = static_cast<float>(colorblindEnemy[3]) / 255.0f;
return false;
}
else if (str == "g_TeamColor_MyTeam")
{
// Dvar_GetUnpackedColor
const auto* colorblindAlly = g_ColorBlind_MyTeam->current.color;
expandedColor[0] = static_cast<float>(colorblindAlly[0]) / 255.0f;
expandedColor[1] = static_cast<float>(colorblindAlly[1]) / 255.0f;
expandedColor[2] = static_cast<float>(colorblindAlly[2]) / 255.0f;
expandedColor[3] = static_cast<float>(colorblindAlly[3]) / 255.0f;
return false;
}
}
return true;
}
__declspec(naked) void TextRenderer::GetUnpackedColorByNameStub()
{
__asm
{
push[esp + 8h]
push[esp + 8h]
call TextRenderer::Dvar_GetUnpackedColorByName
add esp, 8h
test al, al
jnz continue
retn
continue:
push edi
mov edi, [esp + 8h]
push 406535h
retn
}
}
void TextRenderer::UpdateColorTable()
{
if (cg_newColors.get<bool>())
currentColorTable = &colorTableNew;
else
currentColorTable = &colorTableDefault;
(*currentColorTable)[TEXT_COLOR_AXIS] = *reinterpret_cast<unsigned*>(0x66E5F70);
(*currentColorTable)[TEXT_COLOR_ALLIES] = *reinterpret_cast<unsigned*>(0x66E5F74);
(*currentColorTable)[TEXT_COLOR_RAINBOW] = HsvToRgb({ static_cast<uint8_t>((Game::Sys_Milliseconds() / 200) % 256), 255,255 });
(*currentColorTable)[TEXT_COLOR_SERVER] = sv_customTextColor->current.unsignedInt;
}
void TextRenderer::InitFontIconStrings()
{
stringSearchStartWith.Load("FONT_ICON_SEARCH_START_WITH");
stringHintAutoComplete.Load("FONT_ICON_HINT_AUTO_COMPLETE");
stringHintAutoComplete.Format("TAB");
stringHintModifier.Load("FONT_ICON_HINT_MODIFIER");
stringHintModifier.Format(Utils::String::VA("%c", FONT_ICON_MODIFIER_SEPARATOR_CHARACTER));
stringListHeader.Load("FONT_ICON_MODIFIER_LIST_HEADER");
stringListFlipHorizontal.Load("FONT_ICON_MODIFIER_LIST_FLIP_HORIZONTAL");
stringListFlipHorizontal.Format(Utils::String::VA("%c", FONT_ICON_MODIFIER_FLIP_HORIZONTALLY));
stringListFlipVertical.Load("FONT_ICON_MODIFIER_LIST_FLIP_VERTICAL");
stringListFlipVertical.Format(Utils::String::VA("%c", FONT_ICON_MODIFIER_FLIP_VERTICALLY));
stringListBig.Load("FONT_ICON_MODIFIER_LIST_BIG");
stringListBig.Format(Utils::String::VA("%c", FONT_ICON_MODIFIER_BIG));
}
void TextRenderer::InitFontIcons()
{
InitFontIconStrings();
fontIconList.clear();
fontIconLookup.clear();
const auto fontIconTable = Game::DB_FindXAssetHeader(Game::ASSET_TYPE_STRINGTABLE, "mp/fonticons.csv").stringTable;
if(fontIconTable->columnCount < 2 || fontIconTable->rowCount <= 0)
{
Logger::Print("^1Failed to load font icon table\n");
return;
}
fontIconList.reserve(fontIconTable->rowCount);
for(auto rowIndex = 0; rowIndex < fontIconTable->rowCount; rowIndex++)
{
const auto* columns = &fontIconTable->values[rowIndex * fontIconTable->columnCount];
if(columns[0].string == nullptr || columns[1].string == nullptr)
continue;
if (columns[0].string[0] == '\0' || columns[1].string[1] == '\0')
continue;
if (columns[0].string[0] == '#')
continue;
FontIconTableEntry entry
{
columns[0].string,
columns[1].string,
nullptr
};
fontIconList.emplace_back(entry);
fontIconLookup.emplace(std::make_pair(entry.iconName, entry));
}
std::sort(fontIconList.begin(), fontIconList.end(), [](const FontIconTableEntry& a, const FontIconTableEntry& b)
{
return a.iconName < b.iconName;
});
}
void TextRenderer::UI_Init_Hk(const int localClientNum)
{
// Call original method
Utils::Hook::Call<void(int)>(0x4A57D0)(localClientNum);
InitFontIcons();
}
TextRenderer::TextRenderer()
{
currentColorTable = &colorTableDefault;
cg_newColors = Dvar::Register<bool>("cg_newColors", true, Game::dvar_flag::DVAR_FLAG_SAVED, "Use Warfare 2 color code style.");
cg_fontIconAutocomplete = Dvar::Register<bool>("cg_fontIconAutocomplete", true, Game::dvar_flag::DVAR_FLAG_SAVED, "Show autocomplete for fonticons when typing.");
cg_fontIconAutocompleteHint = Dvar::Register<bool>("cg_fontIconAutocompleteHint", true, Game::dvar_flag::DVAR_FLAG_SAVED, "Show hint text in autocomplete for fonticons.");
sv_customTextColor = Game::Dvar_RegisterColor("sv_customTextColor", 1, 0.7f, 0, 1, Game::dvar_flag::DVAR_FLAG_REPLICATED, "Color for the extended color code.");
// Initialize font icons when initializing UI
Utils::Hook(0x4B5422, UI_Init_Hk, HOOK_CALL).install()->quick();
// Replace vanilla text drawing function with a reimplementation with extensions
Utils::Hook(0x535410, DrawText2D, HOOK_JUMP).install()->quick();
// Consider material text icons and font icons when calculating text width
Utils::Hook(0x5056C0, R_TextWidth_Hk, HOOK_JUMP).install()->quick();
// Patch ColorIndex
Utils::Hook(0x417770, ColorIndex, HOOK_JUMP).install()->quick();
// Add a colorblind mode for team colors
r_colorBlind = Dvar::Register<bool>("r_colorBlind", false, Game::dvar_flag::DVAR_FLAG_SAVED, "Use color-blindness-friendly colors");
// A dark red
g_ColorBlind_EnemyTeam = Game::Dvar_RegisterColor("g_ColorBlind_EnemyTeam", 0.659f, 0.088f, 0.145f, 1, Game::dvar_flag::DVAR_FLAG_SAVED, "Enemy team color for colorblind mode");
// A bright yellow
g_ColorBlind_MyTeam = Game::Dvar_RegisterColor("g_ColorBlind_MyTeam", 1, 0.859f, 0.125f, 1, Game::dvar_flag::DVAR_FLAG_SAVED, "Ally team color for colorblind mode");
// Replace team colors with colorblind team colors when colorblind is enabled
Utils::Hook(0x406530, GetUnpackedColorByNameStub, HOOK_JUMP).install()->quick();
// Consider the cursor being inside the color escape sequence when getting the print length for a field
Utils::Hook(0x488CBD, Field_AdjustScroll_PrintLen_Stub, HOOK_CALL).install()->quick();
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// Draw fonticon autocompletion for say field
Utils::Hook(0x4CA1BD, Field_Draw_Say, HOOK_CALL).install()->quick();
// Draw fonticon autocompletion for console field
Utils::Hook(0x5A50A5, Con_DrawInput_Hk, HOOK_CALL).install()->quick();
Utils::Hook(0x5A50BB, Con_DrawInput_Hk, HOOK_CALL).install()->quick();
// Handle key inputs for console and chat
Utils::Hook(0x4F685C, Console_Key_Hk, HOOK_CALL).install()->quick();
Utils::Hook(0x4F6694, Message_Key_Stub, HOOK_CALL).install()->quick();
Utils::Hook(0x4F684C, Message_Key_Stub, HOOK_CALL).install()->quick();
PatchColorLimit(COLOR_LAST_CHAR);
}
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}