1
0
mirror of synced 2024-11-30 10:24:30 +01:00
ImHex/plugins/builtin/source/content/views/view_find.cpp

918 lines
40 KiB
C++

#include "content/views/view_find.hpp"
#include <hex/api/imhex_api.hpp>
#include <hex/providers/buffered_reader.hpp>
#include <array>
#include <regex>
#include <string>
#include <utility>
#include <charconv>
#include <llvm/Demangle/Demangle.h>
namespace hex::plugin::builtin {
ViewFind::ViewFind() : View("hex.builtin.view.find.name") {
const static auto HighlightColor = [] { return (ImGui::GetCustomColorU32(ImGuiCustomCol_ToolbarPurple) & 0x00FFFFFF) | 0x70000000; };
ImHexApi::HexEditor::addBackgroundHighlightingProvider([this](u64 address, const u8* data, size_t size, bool) -> std::optional<color_t> {
hex::unused(data, size);
if (this->m_searchTask.isRunning())
return { };
auto provider = ImHexApi::Provider::get();
if (!this->m_occurrenceTree[provider].findOverlapping(address, address).empty())
return HighlightColor();
else
return std::nullopt;
});
ImHexApi::HexEditor::addTooltipProvider([this](u64 address, const u8* data, size_t size) {
hex::unused(data, size);
if (this->m_searchTask.isRunning())
return;
auto provider = ImHexApi::Provider::get();
auto occurrences = this->m_occurrenceTree[provider].findOverlapping(address, address);
if (occurrences.empty())
return;
ImGui::BeginTooltip();
for (const auto &occurrence : occurrences) {
ImGui::PushID(&occurrence);
if (ImGui::BeginTable("##tooltips", 1, ImGuiTableFlags_RowBg | ImGuiTableFlags_NoClip)) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
{
const auto value = this->decodeValue(ImHexApi::Provider::get(), occurrence.value, 256);
ImGui::ColorButton("##color", ImColor(HighlightColor()));
ImGui::SameLine(0, 10);
ImGui::TextFormatted("{} ", value);
if (ImGui::GetIO().KeyShift) {
ImGui::Indent();
if (ImGui::BeginTable("##extra_info", 2, ImGuiTableFlags_RowBg | ImGuiTableFlags_NoClip)) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::TextFormatted("{}: ", "hex.builtin.common.region"_lang);
ImGui::TableNextColumn();
ImGui::TextFormatted("[ 0x{:08X} - 0x{:08X} ]", occurrence.value.region.getStartAddress(), occurrence.value.region.getEndAddress());
auto demangledValue = llvm::demangle(value);
if (value != demangledValue) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::TextFormatted("{}: ", "hex.builtin.view.find.demangled"_lang);
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", demangledValue);
}
ImGui::EndTable();
}
ImGui::Unindent();
}
}
ImGui::PushStyleColor(ImGuiCol_TableRowBg, HighlightColor());
ImGui::PushStyleColor(ImGuiCol_TableRowBgAlt, HighlightColor());
ImGui::EndTable();
ImGui::PopStyleColor(2);
}
ImGui::PopID();
}
ImGui::EndTooltip();
});
}
std::vector<ViewFind::BinaryPattern> ViewFind::parseBinaryPatternString(std::string string) {
std::vector<BinaryPattern> result;
if (string.length() < 2)
return { };
bool inString = false;
while (string.length() > 0) {
BinaryPattern pattern = { 0, 0 };
if (string.starts_with("\"")) {
inString = !inString;
string = string.substr(1);
continue;
} else if (inString) {
pattern = { 0xFF, u8(string.front()) };
string = string.substr(1);
} else if (string.starts_with("??")) {
pattern = { 0x00, 0x00 };
string = string.substr(2);
} else if ((std::isxdigit(string.front()) || string.front() == '?') && string.length() >= 2) {
const auto hex = string.substr(0, 2);
for (const auto &c : hex) {
pattern.mask <<= 4;
pattern.value <<= 4;
if (std::isxdigit(c)) {
pattern.mask |= 0x0F;
if (auto hexValue = hex::hexCharToValue(c); hexValue.has_value())
pattern.value |= hexValue.value();
else
return { };
} else if (c != '?') {
return { };
}
}
string = string.substr(2);
} else if (std::isspace(string.front())) {
string = string.substr(1);
continue;
} else {
return { };
}
result.push_back(pattern);
}
if (inString)
return { };
return result;
}
template<typename Type, typename StorageType>
static std::tuple<bool, std::variant<u64, i64, float, double>, size_t> parseNumericValue(const std::string &string) {
static_assert(sizeof(StorageType) >= sizeof(Type));
StorageType value;
std::size_t processed = 0;
try {
if constexpr (std::floating_point<Type>)
value = std::stod(string, &processed);
else if constexpr (std::signed_integral<Type>)
value = std::stoll(string, &processed, 0);
else
value = std::stoull(string, &processed, 0);
} catch (std::exception &) {
return { false, { }, 0 };
}
if (processed != string.size())
return { false, { }, 0 };
if (value < std::numeric_limits<Type>::lowest() || value > std::numeric_limits<Type>::max())
return { false, { }, 0 };
return { true, value, sizeof(Type) };
}
std::tuple<bool, std::variant<u64, i64, float, double>, size_t> ViewFind::parseNumericValueInput(const std::string &input, SearchSettings::Value::Type type) {
switch (type) {
using enum SearchSettings::Value::Type;
case U8: return parseNumericValue<u8, u64>(input);
case U16: return parseNumericValue<u16, u64>(input);
case U32: return parseNumericValue<u32, u64>(input);
case U64: return parseNumericValue<u64, u64>(input);
case I8: return parseNumericValue<i8, i64>(input);
case I16: return parseNumericValue<i16, i64>(input);
case I32: return parseNumericValue<i32, i64>(input);
case I64: return parseNumericValue<i64, i64>(input);
case F32: return parseNumericValue<float, float>(input);
case F64: return parseNumericValue<double, double>(input);
default: return { false, { }, 0 };
}
}
template<typename T>
static std::string formatBytes(const std::vector<u8> &bytes) {
if (bytes.size() > sizeof(T))
return { };
T value = 0x00;
std::memcpy(&value, bytes.data(), bytes.size());
if (std::signed_integral<T>)
hex::signExtend(bytes.size() * 8, value);
return hex::format("{}", value);
}
std::vector<ViewFind::Occurrence> ViewFind::searchStrings(Task &task, prv::Provider *provider, hex::Region searchRegion, const SearchSettings::Strings &settings) {
using enum SearchSettings::StringType;
std::vector<Occurrence> results;
if (settings.type == ASCII_UTF16BE || settings.type == ASCII_UTF16LE) {
auto newSettings = settings;
newSettings.type = ASCII;
auto asciiResults = searchStrings(task, provider, searchRegion, newSettings);
std::copy(asciiResults.begin(), asciiResults.end(), std::back_inserter(results));
if (settings.type == ASCII_UTF16BE) {
newSettings.type = UTF16BE;
auto utf16Results = searchStrings(task, provider, searchRegion, newSettings);
std::copy(utf16Results.begin(), utf16Results.end(), std::back_inserter(results));
} else if (settings.type == ASCII_UTF16LE) {
newSettings.type = UTF16LE;
auto utf16Results = searchStrings(task, provider, searchRegion, newSettings);
std::copy(utf16Results.begin(), utf16Results.end(), std::back_inserter(results));
}
return results;
}
auto reader = prv::ProviderReader(provider);
reader.seek(searchRegion.getStartAddress());
reader.setEndAddress(searchRegion.getEndAddress());
const auto [decodeType, endian] = [&] -> std::pair<Occurrence::DecodeType, std::endian> {
if (settings.type == ASCII)
return { Occurrence::DecodeType::ASCII, std::endian::native };
else if (settings.type == SearchSettings::StringType::UTF16BE)
return { Occurrence::DecodeType::UTF16, std::endian::big };
else if (settings.type == SearchSettings::StringType::UTF16LE)
return { Occurrence::DecodeType::UTF16, std::endian::little };
else
return { Occurrence::DecodeType::Binary, std::endian::native };
}();
size_t countedCharacters = 0;
u64 startAddress = reader.begin().getAddress();
u64 endAddress = reader.end().getAddress();
u64 progress = 0;
for (u8 byte : reader) {
bool validChar =
(settings.lowerCaseLetters && std::islower(byte)) ||
(settings.upperCaseLetters && std::isupper(byte)) ||
(settings.numbers && std::isdigit(byte)) ||
(settings.spaces && std::isspace(byte) && byte != '\r' && byte != '\n') ||
(settings.underscores && byte == '_') ||
(settings.symbols && std::ispunct(byte) && !std::isspace(byte)) ||
(settings.lineFeeds && (byte == '\r' || byte == '\n'));
if (settings.type == UTF16LE) {
// Check if second byte of UTF-16 encoded string is 0x00
if (countedCharacters % 2 == 1)
validChar = byte == 0x00;
} else if (settings.type == UTF16BE) {
// Check if first byte of UTF-16 encoded string is 0x00
if (countedCharacters % 2 == 0)
validChar = byte == 0x00;
}
task.update(progress);
if (validChar)
countedCharacters++;
if (!validChar || startAddress + countedCharacters == endAddress) {
if (countedCharacters >= size_t(settings.minLength)) {
if (!(settings.nullTermination && byte != 0x00)) {
results.push_back(Occurrence { Region { startAddress, countedCharacters }, decodeType, endian });
}
}
startAddress += countedCharacters + 1;
countedCharacters = 0;
progress = startAddress - searchRegion.getStartAddress();
}
}
return results;
}
std::vector<ViewFind::Occurrence> ViewFind::searchSequence(Task &task, prv::Provider *provider, hex::Region searchRegion, const SearchSettings::Sequence &settings) {
std::vector<Occurrence> results;
auto reader = prv::ProviderReader(provider);
reader.seek(searchRegion.getStartAddress());
reader.setEndAddress(searchRegion.getEndAddress());
auto bytes = hex::decodeByteString(settings.sequence);
if (bytes.empty())
return { };
auto occurrence = reader.begin();
u64 progress = 0;
while (true) {
task.update(progress);
occurrence = std::search(reader.begin(), reader.end(), std::boyer_moore_horspool_searcher(bytes.begin(), bytes.end()));
if (occurrence == reader.end())
break;
auto address = occurrence.getAddress();
reader.seek(address + 1);
results.push_back(Occurrence{ Region { address, bytes.size() }, Occurrence::DecodeType::Binary, std::endian::native });
progress = address - searchRegion.getStartAddress();
}
return results;
}
std::vector<ViewFind::Occurrence> ViewFind::searchRegex(Task &task, prv::Provider *provider, hex::Region searchRegion, const SearchSettings::Regex &settings) {
auto stringOccurrences = searchStrings(task, provider, searchRegion, SearchSettings::Strings {
.minLength = settings.minLength,
.nullTermination = settings.nullTermination,
.type = settings.type,
.lowerCaseLetters = true,
.upperCaseLetters = true,
.numbers = true,
.underscores = true,
.symbols = true,
.spaces = true,
.lineFeeds = true
});
std::vector<Occurrence> result;
std::regex regex(settings.pattern);
for (const auto &occurrence : stringOccurrences) {
std::string string(occurrence.region.getSize(), '\x00');
provider->read(occurrence.region.getStartAddress(), string.data(), occurrence.region.getSize());
task.update();
if (settings.fullMatch) {
if (std::regex_match(string, regex))
result.push_back(occurrence);
} else {
if (std::regex_search(string, regex))
result.push_back(occurrence);
}
}
return result;
}
std::vector<ViewFind::Occurrence> ViewFind::searchBinaryPattern(Task &task, prv::Provider *provider, hex::Region searchRegion, const SearchSettings::BinaryPattern &settings) {
std::vector<Occurrence> results;
auto reader = prv::ProviderReader(provider);
reader.seek(searchRegion.getStartAddress());
reader.setEndAddress(searchRegion.getEndAddress());
const size_t patternSize = settings.pattern.size();
if (settings.alignment == 1) {
u32 matchedBytes = 0;
for (auto it = reader.begin(); it < reader.end(); it += 1) {
auto byte = *it;
task.update(it.getAddress());
if ((byte & settings.pattern[matchedBytes].mask) == settings.pattern[matchedBytes].value) {
matchedBytes++;
if (matchedBytes == settings.pattern.size()) {
auto occurrenceAddress = it.getAddress() - (patternSize - 1);
results.push_back(Occurrence { Region { occurrenceAddress, patternSize }, Occurrence::DecodeType::Binary, std::endian::native });
it.setAddress(occurrenceAddress);
matchedBytes = 0;
}
} else {
if (matchedBytes > 0)
it -= matchedBytes;
matchedBytes = 0;
}
}
} else {
std::vector<u8> data(patternSize);
for (u64 address = searchRegion.getStartAddress(); address < searchRegion.getEndAddress(); address += settings.alignment) {
reader.read(address, data.data(), data.size());
task.update(address);
bool match = true;
for (u32 i = 0; i < patternSize; i++) {
if ((data[i] & settings.pattern[i].mask) != settings.pattern[i].value) {
match = false;
break;
}
}
if (match)
results.push_back(Occurrence { Region { address, patternSize }, Occurrence::DecodeType::Binary, std::endian::native });
}
}
return results;
}
std::vector<ViewFind::Occurrence> ViewFind::searchValue(Task &task, prv::Provider *provider, Region searchRegion, const SearchSettings::Value &settings) {
std::vector<Occurrence> results;
auto reader = prv::ProviderReader(provider);
reader.seek(searchRegion.getStartAddress());
reader.setEndAddress(searchRegion.getEndAddress());
auto inputMin = settings.inputMin;
auto inputMax = settings.inputMax;
if (inputMax.empty())
inputMax = inputMin;
const auto [validMin, min, sizeMin] = parseNumericValueInput(inputMin, settings.type);
const auto [validMax, max, sizeMax] = parseNumericValueInput(inputMax, settings.type);
if (!validMin || !validMax || sizeMin != sizeMax)
return { };
const auto size = sizeMin;
const auto advance = settings.aligned ? size : 1;
for (u64 address = searchRegion.getStartAddress(); address < searchRegion.getEndAddress(); address += advance) {
task.update(address);
auto result = std::visit([&](auto tag) {
using T = std::remove_cvref_t<std::decay_t<decltype(tag)>>;
auto minValue = std::get<T>(min);
auto maxValue = std::get<T>(max);
T value = 0;
reader.read(address, reinterpret_cast<u8*>(&value), size);
value = hex::changeEndianess(value, size, settings.endian);
return value >= minValue && value <= maxValue;
}, min);
if (result) {
Occurrence::DecodeType decodeType = [&]{
switch (settings.type) {
using enum SearchSettings::Value::Type;
using enum Occurrence::DecodeType;
case U8:
case U16:
case U32:
case U64:
return Unsigned;
case I8:
case I16:
case I32:
case I64:
return Signed;
case F32:
return Float;
case F64:
return Double;
default:
return Binary;
}
}();
results.push_back(Occurrence { Region { address, size }, decodeType, settings.endian });
}
}
return results;
}
void ViewFind::runSearch() {
Region searchRegion = this->m_searchSettings.region;
this->m_searchTask = TaskManager::createTask("hex.builtin.view.find.searching", searchRegion.getSize(), [this, settings = this->m_searchSettings, searchRegion](auto &task) {
auto provider = ImHexApi::Provider::get();
switch (settings.mode) {
using enum SearchSettings::Mode;
case Strings:
this->m_foundOccurrences[provider] = searchStrings(task, provider, searchRegion, settings.strings);
break;
case Sequence:
this->m_foundOccurrences[provider] = searchSequence(task, provider, searchRegion, settings.bytes);
break;
case Regex:
this->m_foundOccurrences[provider] = searchRegex(task, provider, searchRegion, settings.regex);
break;
case BinaryPattern:
this->m_foundOccurrences[provider] = searchBinaryPattern(task, provider, searchRegion, settings.binaryPattern);
break;
case Value:
this->m_foundOccurrences[provider] = searchValue(task, provider, searchRegion, settings.value);
break;
}
this->m_sortedOccurrences[provider] = this->m_foundOccurrences[provider];
OccurrenceTree::interval_vector intervals;
for (const auto &occurrence : this->m_foundOccurrences[provider])
intervals.emplace_back(occurrence.region.getStartAddress(), occurrence.region.getEndAddress(), occurrence);
this->m_occurrenceTree[provider] = std::move(intervals);
});
}
std::string ViewFind::decodeValue(prv::Provider *provider, Occurrence occurrence, size_t maxBytes) const {
std::vector<u8> bytes(std::min<size_t>(occurrence.region.getSize(), maxBytes));
provider->read(occurrence.region.getStartAddress(), bytes.data(), bytes.size());
std::string result;
switch (this->m_decodeSettings.mode) {
using enum SearchSettings::Mode;
case Value:
case Strings:
{
switch (occurrence.decodeType) {
using enum Occurrence::DecodeType;
case Binary:
case ASCII:
result = hex::encodeByteString(bytes);
break;
case UTF16:
for (size_t i = occurrence.endian == std::endian::little ? 0 : 1; i < bytes.size(); i += 2)
result += hex::encodeByteString({ bytes[i] });
break;
case Unsigned:
result += formatBytes<u64>(bytes);
break;
case Signed:
result += formatBytes<i64>(bytes);
break;
case Float:
result += formatBytes<float>(bytes);
break;
case Double:
result += formatBytes<double>(bytes);
break;
}
}
break;
case Sequence:
case Regex:
case BinaryPattern:
result = hex::encodeByteString(bytes);
break;
}
if (occurrence.region.getSize() > maxBytes)
result += "...";
return result;
}
static void drawContextMenu(const std::string &value) {
if (ImGui::IsMouseClicked(ImGuiMouseButton_Right) && ImGui::IsItemHovered()) {
ImGui::OpenPopup("FindContextMenu");
}
if (ImGui::BeginPopup("FindContextMenu")) {
if (ImGui::MenuItem("hex.builtin.view.find.context.copy"_lang))
ImGui::SetClipboardText(value.c_str());
if (ImGui::MenuItem("hex.builtin.view.find.context.copy_demangle"_lang))
ImGui::SetClipboardText(llvm::demangle(value).c_str());
ImGui::EndPopup();
}
}
void ViewFind::drawContent() {
if (ImGui::Begin(View::toWindowName("hex.builtin.view.find.name").c_str(), &this->getWindowOpenState())) {
auto provider = ImHexApi::Provider::get();
ImGui::BeginDisabled(this->m_searchTask.isRunning());
{
ui::regionSelectionPicker(&this->m_searchSettings.region, provider, &this->m_searchSettings.range, true, true);
ImGui::NewLine();
if (ImGui::BeginTabBar("SearchMethods")) {
const std::array<std::string, 5> StringTypes = {
"hex.builtin.common.encoding.ascii"_lang,
"hex.builtin.common.encoding.utf16le"_lang,
"hex.builtin.common.encoding.utf16be"_lang,
hex::format("{} + {}", "hex.builtin.common.encoding.ascii"_lang, "hex.builtin.common.encoding.utf16le"_lang),
hex::format("{} + {}", "hex.builtin.common.encoding.ascii"_lang, "hex.builtin.common.encoding.utf16be"_lang)
};
auto &mode = this->m_searchSettings.mode;
if (ImGui::BeginTabItem("hex.builtin.view.find.strings"_lang)) {
auto &settings = this->m_searchSettings.strings;
mode = SearchSettings::Mode::Strings;
ImGui::InputInt("hex.builtin.view.find.strings.min_length"_lang, &settings.minLength, 1, 1);
if (settings.minLength < 1)
settings.minLength = 1;
if (ImGui::BeginCombo("hex.builtin.common.type"_lang, StringTypes[std::to_underlying(settings.type)].c_str())) {
for (size_t i = 0; i < StringTypes.size(); i++) {
auto type = static_cast<SearchSettings::StringType>(i);
if (ImGui::Selectable(StringTypes[i].c_str(), type == settings.type))
settings.type = type;
}
ImGui::EndCombo();
}
if (ImGui::CollapsingHeader("hex.builtin.view.find.strings.match_settings"_lang)) {
ImGui::Checkbox("hex.builtin.view.find.strings.null_term"_lang, &settings.nullTermination);
ImGui::Header("hex.builtin.view.find.strings.chars"_lang);
ImGui::Checkbox(hex::format("{} [a-z]", "hex.builtin.view.find.strings.lower_case"_lang.get()).c_str(), &settings.lowerCaseLetters);
ImGui::Checkbox(hex::format("{} [A-Z]", "hex.builtin.view.find.strings.upper_case"_lang.get()).c_str(), &settings.upperCaseLetters);
ImGui::Checkbox(hex::format("{} [0-9]", "hex.builtin.view.find.strings.numbers"_lang.get()).c_str(), &settings.numbers);
ImGui::Checkbox(hex::format("{} [_]", "hex.builtin.view.find.strings.underscores"_lang.get()).c_str(), &settings.underscores);
ImGui::Checkbox(hex::format("{} [!\"#$%...]", "hex.builtin.view.find.strings.symbols"_lang.get()).c_str(), &settings.symbols);
ImGui::Checkbox(hex::format("{} [ \\f\\t\\v]", "hex.builtin.view.find.strings.spaces"_lang.get()).c_str(), &settings.spaces);
ImGui::Checkbox(hex::format("{} [\\r\\n]", "hex.builtin.view.find.strings.line_feeds"_lang.get()).c_str(), &settings.lineFeeds);
}
this->m_settingsValid = true;
ImGui::EndTabItem();
}
if (ImGui::BeginTabItem("hex.builtin.view.find.sequences"_lang)) {
auto &settings = this->m_searchSettings.bytes;
mode = SearchSettings::Mode::Sequence;
ImGui::InputTextIcon("hex.builtin.common.value"_lang, ICON_VS_SYMBOL_KEY, settings.sequence);
this->m_settingsValid = !settings.sequence.empty() && !hex::decodeByteString(settings.sequence).empty();
ImGui::EndTabItem();
}
if (ImGui::BeginTabItem("hex.builtin.view.find.regex"_lang)) {
auto &settings = this->m_searchSettings.regex;
mode = SearchSettings::Mode::Regex;
ImGui::InputInt("hex.builtin.view.find.strings.min_length"_lang, &settings.minLength, 1, 1);
if (settings.minLength < 1)
settings.minLength = 1;
if (ImGui::BeginCombo("hex.builtin.common.type"_lang, StringTypes[std::to_underlying(settings.type)].c_str())) {
for (size_t i = 0; i < StringTypes.size(); i++) {
auto type = static_cast<SearchSettings::StringType>(i);
if (ImGui::Selectable(StringTypes[i].c_str(), type == settings.type))
settings.type = type;
}
ImGui::EndCombo();
}
ImGui::Checkbox("hex.builtin.view.find.strings.null_term"_lang, &settings.nullTermination);
ImGui::NewLine();
ImGui::InputTextIcon("hex.builtin.view.find.regex.pattern"_lang, ICON_VS_REGEX, settings.pattern);
try {
std::regex regex(settings.pattern);
this->m_settingsValid = true;
} catch (std::regex_error &e) {
this->m_settingsValid = false;
}
if (settings.pattern.empty())
this->m_settingsValid = false;
ImGui::Checkbox("hex.builtin.view.find.regex.full_match"_lang, &settings.fullMatch);
ImGui::EndTabItem();
}
if (ImGui::BeginTabItem("hex.builtin.view.find.binary_pattern"_lang)) {
auto &settings = this->m_searchSettings.binaryPattern;
mode = SearchSettings::Mode::BinaryPattern;
ImGui::InputTextIcon("hex.builtin.view.find.binary_pattern"_lang, ICON_VS_SYMBOL_NAMESPACE, settings.input);
constexpr static u32 min = 1, max = 0x1000;
ImGui::SliderScalar("hex.builtin.view.find.binary_pattern.alignment"_lang, ImGuiDataType_U32, &settings.alignment, &min, &max);
settings.pattern = parseBinaryPatternString(settings.input);
this->m_settingsValid = !settings.pattern.empty() && settings.alignment > 0;
ImGui::EndTabItem();
}
if (ImGui::BeginTabItem("hex.builtin.view.find.value"_lang)) {
auto &settings = this->m_searchSettings.value;
mode = SearchSettings::Mode::Value;
bool edited = false;
if (settings.range) {
if (ImGui::InputTextIcon("hex.builtin.view.find.value.min"_lang, ICON_VS_SYMBOL_NUMERIC, settings.inputMin)) edited = true;
if (ImGui::InputTextIcon("hex.builtin.view.find.value.max"_lang, ICON_VS_SYMBOL_NUMERIC, settings.inputMax)) edited = true;
} else {
if (ImGui::InputTextIcon("hex.builtin.common.value"_lang, ICON_VS_SYMBOL_NUMERIC, settings.inputMin)) {
edited = true;
settings.inputMax = settings.inputMin;
}
ImGui::BeginDisabled();
ImGui::InputTextIcon("##placeholder_value", ICON_VS_SYMBOL_NUMERIC, settings.inputMax);
ImGui::EndDisabled();
}
ImGui::Checkbox("hex.builtin.view.find.value.range"_lang, &settings.range);
ImGui::NewLine();
const std::array<std::string, 10> InputTypes = {
"hex.builtin.common.type.u8"_lang,
"hex.builtin.common.type.u16"_lang,
"hex.builtin.common.type.u32"_lang,
"hex.builtin.common.type.u64"_lang,
"hex.builtin.common.type.i8"_lang,
"hex.builtin.common.type.i16"_lang,
"hex.builtin.common.type.i32"_lang,
"hex.builtin.common.type.i64"_lang,
"hex.builtin.common.type.f32"_lang,
"hex.builtin.common.type.f64"_lang
};
if (ImGui::BeginCombo("hex.builtin.common.type"_lang, InputTypes[std::to_underlying(settings.type)].c_str())) {
for (size_t i = 0; i < InputTypes.size(); i++) {
auto type = static_cast<SearchSettings::Value::Type>(i);
if (ImGui::Selectable(InputTypes[i].c_str(), type == settings.type)) {
settings.type = type;
edited = true;
}
}
ImGui::EndCombo();
}
{
int selection = [&] {
switch (settings.endian) {
default:
case std::endian::little: return 0;
case std::endian::big: return 1;
}
}();
std::array options = { "hex.builtin.common.little"_lang, "hex.builtin.common.big"_lang };
if (ImGui::SliderInt("hex.builtin.common.endian"_lang, &selection, 0, options.size() - 1, options[selection], ImGuiSliderFlags_NoInput)) {
edited = true;
switch (selection) {
default:
case 0: settings.endian = std::endian::little; break;
case 1: settings.endian = std::endian::big; break;
}
}
}
ImGui::Checkbox("hex.builtin.view.find.value.aligned"_lang, &settings.aligned);
if (edited) {
auto [minValid, min, minSize] = parseNumericValueInput(settings.inputMin, settings.type);
auto [maxValid, max, maxSize] = parseNumericValueInput(settings.inputMax, settings.type);
this->m_settingsValid = minValid && maxValid && minSize == maxSize;
}
ImGui::EndTabItem();
}
ImGui::EndTabBar();
}
ImGui::NewLine();
ImGui::BeginDisabled(!this->m_settingsValid);
{
if (ImGui::Button("hex.builtin.view.find.search"_lang)) {
this->runSearch();
this->m_decodeSettings = this->m_searchSettings;
}
}
ImGui::EndDisabled();
ImGui::SameLine();
ImGui::TextFormatted("hex.builtin.view.find.search.entries"_lang, this->m_foundOccurrences[provider].size());
ImGui::BeginDisabled(this->m_foundOccurrences[provider].empty());
{
if (ImGui::Button("hex.builtin.view.find.search.reset"_lang)) {
this->m_foundOccurrences[provider].clear();
this->m_sortedOccurrences[provider].clear();
this->m_occurrenceTree[provider].clear();
}
}
ImGui::EndDisabled();
}
ImGui::EndDisabled();
ImGui::Separator();
ImGui::NewLine();
auto &currOccurrences = this->m_sortedOccurrences[provider];
ImGui::PushItemWidth(ImGui::GetContentRegionAvail().x);
auto prevFilterLength = this->m_currFilter[provider].length();
if (ImGui::InputTextWithHint("##filter", "hex.builtin.common.filter"_lang, this->m_currFilter[provider])) {
if (prevFilterLength > this->m_currFilter[provider].length())
this->m_sortedOccurrences[provider] = this->m_foundOccurrences[provider];
if (this->m_filterTask.isRunning())
this->m_filterTask.interrupt();
if (!this->m_currFilter[provider].empty()) {
this->m_filterTask = TaskManager::createTask("Filtering", currOccurrences.size(), [this, provider, &currOccurrences](Task &task) {
u64 progress = 0;
currOccurrences.erase(std::remove_if(currOccurrences.begin(), currOccurrences.end(), [this, provider, &task, &progress](const auto &region) {
task.update(progress);
progress += 1;
return !hex::containsIgnoreCase(this->decodeValue(provider, region), this->m_currFilter[provider]);
}), currOccurrences.end());
});
}
}
ImGui::PopItemWidth();
if (ImGui::BeginTable("##entries", 3, ImGuiTableFlags_Borders | ImGuiTableFlags_SizingFixedFit | ImGuiTableFlags_Sortable | ImGuiTableFlags_Reorderable | ImGuiTableFlags_RowBg | ImGuiTableFlags_ScrollY)) {
ImGui::TableSetupScrollFreeze(0, 1);
ImGui::TableSetupColumn("hex.builtin.common.offset"_lang, 0, -1, ImGui::GetID("offset"));
ImGui::TableSetupColumn("hex.builtin.common.size"_lang, 0, -1, ImGui::GetID("size"));
ImGui::TableSetupColumn("hex.builtin.common.value"_lang, 0, -1, ImGui::GetID("value"));
auto sortSpecs = ImGui::TableGetSortSpecs();
if (sortSpecs->SpecsDirty) {
std::sort(currOccurrences.begin(), currOccurrences.end(), [this, &sortSpecs, provider](Occurrence &left, Occurrence &right) -> bool {
if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("offset")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left.region.getStartAddress() > right.region.getStartAddress();
else
return left.region.getStartAddress() < right.region.getStartAddress();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("size")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left.region.getSize() > right.region.getSize();
else
return left.region.getSize() < right.region.getSize();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("value")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return this->decodeValue(provider, left) > this->decodeValue(provider, right);
else
return this->decodeValue(provider, left) < this->decodeValue(provider, right);
}
return false;
});
sortSpecs->SpecsDirty = false;
}
ImGui::TableHeadersRow();
ImGuiListClipper clipper;
clipper.Begin(currOccurrences.size(), ImGui::GetTextLineHeightWithSpacing());
while (clipper.Step()) {
for (size_t i = clipper.DisplayStart; i < std::min<size_t>(clipper.DisplayEnd, currOccurrences.size()); i++) {
auto &foundItem = currOccurrences[i];
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{:08X}", foundItem.region.getStartAddress());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", hex::toByteString(foundItem.region.getSize()));
ImGui::TableNextColumn();
ImGui::PushID(i);
auto value = this->decodeValue(provider, foundItem, 256);
ImGui::TextFormatted("{}", value);
ImGui::SameLine();
if (ImGui::Selectable("##line", false, ImGuiSelectableFlags_SpanAllColumns))
ImHexApi::HexEditor::setSelection(foundItem.region.getStartAddress(), foundItem.region.getSize());
drawContextMenu(value);
ImGui::PopID();
}
}
clipper.End();
ImGui::EndTable();
}
}
ImGui::End();
}
}