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mirror of synced 2024-12-15 09:11:15 +01:00
ImHex/lib/libimhex/include/hex/pattern_language/pattern_data.hpp

1662 lines
64 KiB
C++

#pragma once
#include <hex.hpp>
#include <imgui.h>
#include <hex/providers/provider.hpp>
#include <hex/pattern_language/token.hpp>
#include <hex/pattern_language/evaluator.hpp>
#include <hex/ui/view.hpp>
#include <hex/helpers/utils.hpp>
#include <hex/helpers/fmt.hpp>
#include <hex/helpers/concepts.hpp>
#include <hex/helpers/logger.hpp>
#include <cstring>
#include <codecvt>
#include <locale>
#include <random>
#include <string>
#include <type_traits>
namespace hex::pl {
using namespace ::std::literals::string_literals;
namespace {
std::string makeDisplayable(const std::string &string) {
std::string result;
for (auto &c : string) {
if (iscntrl(c) || c > 0x7F)
result += " ";
else
result += c;
}
if (string.length() != 0 && string.back() == '\x00')
result.pop_back();
return result;
}
}
class Inlinable {
public:
[[nodiscard]] bool isInlined() const { return this->m_inlined; }
void setInlined(bool inlined) { this->m_inlined = inlined; }
private:
bool m_inlined = false;
};
class PatternCreationLimiter {
public:
explicit PatternCreationLimiter(Evaluator *evaluator) : m_evaluator(evaluator) {
if (getEvaluator() == nullptr) return;
getEvaluator()->patternCreated();
}
PatternCreationLimiter(const PatternCreationLimiter &other) : PatternCreationLimiter(other.m_evaluator) { }
virtual ~PatternCreationLimiter() {
if (getEvaluator() == nullptr) return;
getEvaluator()->patternDestroyed();
}
[[nodiscard]] Evaluator *getEvaluator() const {
return this->m_evaluator;
}
private:
Evaluator *m_evaluator = nullptr;
};
class PatternData : public PatternCreationLimiter,
public Cloneable<PatternData> {
public:
PatternData(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternCreationLimiter(evaluator), m_offset(offset), m_size(size), m_color(color) {
if (color != 0)
return;
this->m_color = ContentRegistry::PatternLanguage::getNextColor();
this->m_manualColor = false;
}
PatternData(const PatternData &other) = default;
~PatternData() override = default;
[[nodiscard]] u64 getOffset() const { return this->m_offset; }
virtual void setOffset(u64 offset) { this->m_offset = offset; }
[[nodiscard]] size_t getSize() const { return this->m_size; }
void setSize(size_t size) { this->m_size = size; }
[[nodiscard]] const std::string &getVariableName() const { return this->m_variableName; }
void setVariableName(std::string name) { this->m_variableName = std::move(name); }
[[nodiscard]] const std::optional<std::string> &getComment() const { return this->m_comment; }
void setComment(std::string comment) { this->m_comment = std::move(comment); }
[[nodiscard]] const std::string &getTypeName() const { return this->m_typeName; }
void setTypeName(std::string name) { this->m_typeName = std::move(name); }
[[nodiscard]] u32 getColor() const { return this->m_color; }
virtual void setColor(u32 color) {
this->m_color = color;
this->m_manualColor = true;
}
[[nodiscard]] bool hasOverriddenColor() const { return this->m_manualColor; }
[[nodiscard]] std::endian getEndian() const {
if (this->getEvaluator() == nullptr) return std::endian::native;
else return this->m_endian.value_or(this->getEvaluator()->getDefaultEndian());
}
virtual void setEndian(std::endian endian) { this->m_endian = endian; }
[[nodiscard]] bool hasOverriddenEndian() const { return this->m_endian.has_value(); }
[[nodiscard]] std::string getDisplayName() const { return this->m_displayName.value_or(this->m_variableName); }
void setDisplayName(const std::string &name) { this->m_displayName = name; }
[[nodiscard]] const auto &getTransformFunction() const { return this->m_transformFunction; }
void setTransformFunction(const ContentRegistry::PatternLanguage::Function &function) { this->m_transformFunction = function; }
[[nodiscard]] const auto &getFormatterFunction() const { return this->m_formatterFunction; }
void setFormatterFunction(const ContentRegistry::PatternLanguage::Function &function) { this->m_formatterFunction = function; }
virtual void createEntry(prv::Provider *&provider) = 0;
[[nodiscard]] virtual std::string getFormattedName() const = 0;
[[nodiscard]] virtual const PatternData *getPattern(u64 offset) const {
if (offset >= this->getOffset() && offset < (this->getOffset() + this->getSize()) && !this->isHidden())
return this;
else
return nullptr;
}
virtual void getHighlightedAddresses(std::map<u64, u32> &highlight) const {
if (this->isHidden()) return;
for (u64 i = 0; i < this->getSize(); i++)
highlight.insert({ this->getOffset() + i, this->getColor() });
this->getEvaluator()->handleAbort();
}
virtual void sort(ImGuiTableSortSpecs *sortSpecs, prv::Provider *provider) { }
[[nodiscard]] virtual std::string toString(prv::Provider *provider) const {
return hex::format("{} {} @ 0x{:X}", this->getTypeName(), this->getVariableName(), this->getOffset());
}
static bool sortPatternDataTable(ImGuiTableSortSpecs *sortSpecs, prv::Provider *provider, pl::PatternData *left, pl::PatternData *right) {
if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("name")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left->getDisplayName() > right->getDisplayName();
else
return left->getDisplayName() < right->getDisplayName();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("offset")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left->getOffset() > right->getOffset();
else
return left->getOffset() < right->getOffset();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("size")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left->getSize() > right->getSize();
else
return left->getSize() < right->getSize();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("value")) {
size_t biggerSize = std::max(left->getSize(), right->getSize());
std::vector<u8> leftBuffer(biggerSize, 0x00), rightBuffer(biggerSize, 0x00);
provider->read(left->getOffset(), leftBuffer.data(), left->getSize());
provider->read(right->getOffset(), rightBuffer.data(), right->getSize());
if (left->m_endian != std::endian::native)
std::reverse(leftBuffer.begin(), leftBuffer.end());
if (right->m_endian != std::endian::native)
std::reverse(rightBuffer.begin(), rightBuffer.end());
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return leftBuffer > rightBuffer;
else
return leftBuffer < rightBuffer;
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("type")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left->getTypeName() > right->getTypeName();
else
return left->getTypeName() < right->getTypeName();
} else if (sortSpecs->Specs->ColumnUserID == ImGui::GetID("color")) {
if (sortSpecs->Specs->SortDirection == ImGuiSortDirection_Ascending)
return left->getColor() > right->getColor();
else
return left->getColor() < right->getColor();
}
return false;
}
void draw(prv::Provider *provider) {
if (isHidden()) return;
this->createEntry(provider);
}
void setHidden(bool hidden) {
this->m_hidden = hidden;
}
[[nodiscard]] bool isHidden() const {
return this->m_hidden;
}
void setLocal(bool local) {
this->m_local = local;
}
[[nodiscard]] bool isLocal() const {
return this->m_local;
}
[[nodiscard]] virtual bool operator!=(const PatternData &other) const final { return !operator==(other); }
[[nodiscard]] virtual bool operator==(const PatternData &other) const = 0;
template<typename T>
[[nodiscard]] bool areCommonPropertiesEqual(const PatternData &other) const {
return typeid(other) == typeid(std::remove_cvref_t<T>) &&
this->m_offset == other.m_offset &&
this->m_size == other.m_size &&
this->m_hidden == other.m_hidden &&
(this->m_endian == other.m_endian || (!this->m_endian.has_value() && other.m_endian == std::endian::native) || (!other.m_endian.has_value() && this->m_endian == std::endian::native)) &&
this->m_variableName == other.m_variableName &&
this->m_typeName == other.m_typeName &&
this->m_comment == other.m_comment &&
this->m_local == other.m_local;
}
[[nodiscard]] std::string formatDisplayValue(const std::string &value, const Token::Literal &literal) const {
if (!this->m_formatterFunction.has_value())
return value;
else {
try {
auto result = this->m_formatterFunction->func(this->getEvaluator(), { literal });
if (result.has_value()) {
if (auto displayValue = std::get_if<std::string>(&result.value()); displayValue != nullptr)
return *displayValue;
else
return "???";
} else {
return "???";
}
} catch (PatternLanguageError &error) {
return "Error: "s + error.what();
}
}
}
protected:
void createDefaultEntry(const std::string &value, const Token::Literal &literal) const {
ImGui::TableNextRow();
ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_Leaf | ImGuiTreeNodeFlags_NoTreePushOnOpen | ImGuiTreeNodeFlags_SpanFullWidth | ImGuiTreeNodeFlags_AllowItemOverlap);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::SameLine();
ImGui::TextUnformatted(this->getDisplayName().c_str());
ImGui::TableNextColumn();
ImGui::ColorButton("color", ImColor(this->getColor()), ImGuiColorEditFlags_NoTooltip, ImVec2(ImGui::GetColumnWidth(), ImGui::GetTextLineHeight()));
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFF9BC64D), "{}", this->getFormattedName());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", formatDisplayValue(value, literal));
}
void drawCommentTooltip() const {
if (ImGui::IsItemHovered(ImGuiHoveredFlags_AllowWhenBlockedByActiveItem) && this->getComment().has_value()) {
ImGui::BeginTooltip();
ImGui::TextUnformatted(this->getComment()->c_str());
ImGui::EndTooltip();
}
}
protected:
std::optional<std::endian> m_endian;
bool m_hidden = false;
private:
u64 m_offset = 0x00;
size_t m_size = 0x00;
u32 m_color = 0x00;
std::optional<std::string> m_displayName;
std::string m_variableName;
std::optional<std::string> m_comment;
std::string m_typeName;
std::optional<ContentRegistry::PatternLanguage::Function> m_formatterFunction;
std::optional<ContentRegistry::PatternLanguage::Function> m_transformFunction;
bool m_local = false;
bool m_manualColor = false;
};
class PatternDataPadding : public PatternData {
public:
PatternDataPadding(Evaluator *evaluator, u64 offset, size_t size) : PatternData(evaluator, offset, size, 0xFF000000) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataPadding(*this);
}
void createEntry(prv::Provider *&provider) override {
}
[[nodiscard]] std::string getFormattedName() const override {
return "";
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataPointer : public PatternData,
public Inlinable {
public:
PatternDataPointer(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color), m_pointedAt(nullptr) {
}
PatternDataPointer(const PatternDataPointer &other) : PatternData(other) {
this->m_pointedAt = other.m_pointedAt->clone();
}
~PatternDataPointer() override {
delete this->m_pointedAt;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataPointer(*this);
}
void createEntry(prv::Provider *&provider) override {
u64 data = 0;
provider->read(this->getOffset(), &data, this->getSize());
data = hex::changeEndianess(data, this->getSize(), this->getEndian());
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::SameLine(0, 0);
ImGui::ColorButton("color", ImColor(this->getColor()), ImGuiColorEditFlags_NoTooltip, ImVec2(ImGui::GetColumnWidth(), ImGui::GetTextLineHeight()));
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFF9BC64D), "{}", this->getFormattedName());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", formatDisplayValue(hex::format("*(0x{0:X})", data), u128(data)));
}
if (open) {
this->m_pointedAt->createEntry(provider);
if (!this->isInlined())
ImGui::TreePop();
}
}
void getHighlightedAddresses(std::map<u64, u32> &highlight) const override {
PatternData::getHighlightedAddresses(highlight);
this->m_pointedAt->getHighlightedAddresses(highlight);
}
[[nodiscard]] std::string getFormattedName() const override {
std::string result = this->m_pointedAt->getFormattedName() + "* : ";
switch (this->getSize()) {
case 1:
result += "u8";
break;
case 2:
result += "u16";
break;
case 4:
result += "u32";
break;
case 8:
result += "u64";
break;
case 16:
result += "u128";
break;
}
return result;
}
void setPointedAtPattern(PatternData *pattern) {
this->m_pointedAt = pattern;
this->m_pointedAt->setVariableName(hex::format("*({})", this->getVariableName()));
this->m_pointedAt->setOffset(this->m_pointedAtAddress);
}
void setPointedAtAddress(u64 address) {
this->m_pointedAtAddress = address;
}
[[nodiscard]] u64 getPointedAtAddress() const {
return this->m_pointedAtAddress;
}
[[nodiscard]] PatternData *getPointedAtPattern() {
return this->m_pointedAt;
}
void setColor(u32 color) override {
PatternData::setColor(color);
this->m_pointedAt->setColor(color);
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
return areCommonPropertiesEqual<decltype(*this)>(other) &&
*static_cast<const PatternDataPointer *>(&other)->m_pointedAt == *this->m_pointedAt;
}
void rebase(u64 base) {
if (this->m_pointedAt != nullptr) {
this->m_pointedAtAddress = (this->m_pointedAt->getOffset() - this->m_pointerBase) + base;
this->m_pointedAt->setOffset(this->m_pointedAtAddress);
}
this->m_pointerBase = base;
}
[[nodiscard]] const PatternData *getPattern(u64 offset) const override {
if (offset >= this->getOffset() && offset < (this->getOffset() + this->getSize()) && !this->isHidden())
return this;
else
return this->m_pointedAt->getPattern(offset);
}
void setEndian(std::endian endian) override {
this->m_pointedAt->setEndian(endian);
PatternData::setEndian(endian);
}
private:
PatternData *m_pointedAt = nullptr;
u64 m_pointedAtAddress = 0;
u64 m_pointerBase = 0;
};
class PatternDataUnsigned : public PatternData {
public:
PatternDataUnsigned(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataUnsigned(*this);
}
void createEntry(prv::Provider *&provider) override {
u128 data = 0;
provider->read(this->getOffset(), &data, this->getSize());
data = hex::changeEndianess(data, this->getSize(), this->getEndian());
this->createDefaultEntry(hex::format("{:d} (0x{:0{}X})", data, data, this->getSize() * 2), data);
}
[[nodiscard]] std::string getFormattedName() const override {
switch (this->getSize()) {
case 1:
return "u8";
case 2:
return "u16";
case 4:
return "u32";
case 8:
return "u64";
case 16:
return "u128";
default:
return "Unsigned data";
}
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataSigned : public PatternData {
public:
PatternDataSigned(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataSigned(*this);
}
void createEntry(prv::Provider *&provider) override {
i128 data = 0;
provider->read(this->getOffset(), &data, this->getSize());
data = hex::changeEndianess(data, this->getSize(), this->getEndian());
data = hex::signExtend(this->getSize() * 8, data);
this->createDefaultEntry(hex::format("{:d} (0x{:0{}X})", data, data, 1 * 2), data);
}
[[nodiscard]] std::string getFormattedName() const override {
switch (this->getSize()) {
case 1:
return "s8";
case 2:
return "s16";
case 4:
return "s32";
case 8:
return "s64";
case 16:
return "s128";
default:
return "Signed data";
}
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataFloat : public PatternData {
public:
PatternDataFloat(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataFloat(*this);
}
void createEntry(prv::Provider *&provider) override {
if (this->getSize() == 4) {
u32 data = 0;
provider->read(this->getOffset(), &data, 4);
data = hex::changeEndianess(data, 4, this->getEndian());
this->createDefaultEntry(hex::format("{:e} (0x{:0{}X})", *reinterpret_cast<float *>(&data), data, this->getSize() * 2), *reinterpret_cast<float *>(&data));
} else if (this->getSize() == 8) {
u64 data = 0;
provider->read(this->getOffset(), &data, 8);
data = hex::changeEndianess(data, 8, this->getEndian());
this->createDefaultEntry(hex::format("{:e} (0x{:0{}X})", *reinterpret_cast<double *>(&data), data, this->getSize() * 2), *reinterpret_cast<double *>(&data));
}
}
[[nodiscard]] std::string getFormattedName() const override {
switch (this->getSize()) {
case 4:
return "float";
case 8:
return "double";
default:
return "Floating point data";
}
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataBoolean : public PatternData {
public:
explicit PatternDataBoolean(Evaluator *evaluator, u64 offset, u32 color = 0)
: PatternData(evaluator, offset, 1, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataBoolean(*this);
}
void createEntry(prv::Provider *&provider) override {
u8 boolean;
provider->read(this->getOffset(), &boolean, 1);
if (boolean == 0)
this->createDefaultEntry("false", false);
else if (boolean == 1)
this->createDefaultEntry("true", true);
else
this->createDefaultEntry("true*", true);
}
[[nodiscard]] std::string getFormattedName() const override {
return "bool";
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataCharacter : public PatternData {
public:
explicit PatternDataCharacter(Evaluator *evaluator, u64 offset, u32 color = 0)
: PatternData(evaluator, offset, 1, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataCharacter(*this);
}
void createEntry(prv::Provider *&provider) override {
char character;
provider->read(this->getOffset(), &character, 1);
this->createDefaultEntry(hex::format("'{0}'", character), character);
}
[[nodiscard]] std::string getFormattedName() const override {
return "char";
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataCharacter16 : public PatternData {
public:
explicit PatternDataCharacter16(Evaluator *evaluator, u64 offset, u32 color = 0)
: PatternData(evaluator, offset, 2, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataCharacter16(*this);
}
void createEntry(prv::Provider *&provider) override {
char16_t character;
provider->read(this->getOffset(), &character, 2);
character = hex::changeEndianess(character, this->getEndian());
u128 literal = character;
this->createDefaultEntry(hex::format("'{0}'", std::wstring_convert<std::codecvt_utf8_utf16<char16_t>, char16_t> {}.to_bytes(character)), literal);
}
[[nodiscard]] std::string getFormattedName() const override {
return "char16";
}
[[nodiscard]] std::string toString(prv::Provider *provider) const override {
char16_t character;
provider->read(this->getOffset(), &character, 2);
character = hex::changeEndianess(character, this->getEndian());
return std::wstring_convert<std::codecvt_utf8_utf16<char16_t>, char16_t> {}.to_bytes(character);
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataString : public PatternData {
public:
PatternDataString(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataString(*this);
}
void createEntry(prv::Provider *&provider) override {
auto size = std::min<size_t>(this->getSize(), 0x7F);
if (size == 0)
return;
std::string buffer(size, 0x00);
provider->read(this->getOffset(), buffer.data(), size);
this->createDefaultEntry(hex::format("\"{0}\" {1}", makeDisplayable(buffer), size > this->getSize() ? "(truncated)" : ""), buffer);
}
[[nodiscard]] std::string getFormattedName() const override {
return "String";
}
[[nodiscard]] std::string toString(prv::Provider *provider) const override {
std::string buffer(this->getSize(), 0x00);
provider->read(this->getOffset(), buffer.data(), buffer.size());
std::erase_if(buffer, [](auto c) {
return c == 0x00;
});
return buffer;
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataString16 : public PatternData {
public:
PatternDataString16(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) { }
[[nodiscard]] PatternData *clone() const override {
return new PatternDataString16(*this);
}
void createEntry(prv::Provider *&provider) override {
auto size = std::min<size_t>(this->getSize(), 0x100);
if (size == 0)
return;
std::u16string buffer(this->getSize() / sizeof(char16_t), 0x00);
provider->read(this->getOffset(), buffer.data(), size);
for (auto &c : buffer)
c = hex::changeEndianess(c, 2, this->getEndian());
buffer.erase(std::remove_if(buffer.begin(), buffer.end(), [](auto c) {
return c == 0x00;
}),
buffer.end());
auto utf8String = std::wstring_convert<std::codecvt_utf8_utf16<char16_t>, char16_t> {}.to_bytes(buffer);
this->createDefaultEntry(hex::format("\"{0}\" {1}", utf8String, size > this->getSize() ? "(truncated)" : ""), utf8String);
}
[[nodiscard]] std::string getFormattedName() const override {
return "String16";
}
[[nodiscard]] std::string toString(prv::Provider *provider) const override {
std::u16string buffer(this->getSize() / sizeof(char16_t), 0x00);
provider->read(this->getOffset(), buffer.data(), this->getSize());
for (auto &c : buffer)
c = hex::changeEndianess(c, 2, this->getEndian());
std::erase_if(buffer, [](auto c) {
return c == 0x00;
});
return std::wstring_convert<std::codecvt_utf8_utf16<char16_t>, char16_t> {}.to_bytes(buffer);
}
[[nodiscard]] bool operator==(const PatternData &other) const override { return areCommonPropertiesEqual<decltype(*this)>(other); }
};
class PatternDataDynamicArray : public PatternData,
public Inlinable {
public:
PatternDataDynamicArray(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
PatternDataDynamicArray(const PatternDataDynamicArray &other) : PatternData(other) {
std::vector<PatternData *> entries;
for (const auto &entry : other.m_entries)
entries.push_back(entry->clone());
this->setEntries(entries);
}
~PatternDataDynamicArray() override {
for (const auto &entry : this->m_entries)
delete entry;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataDynamicArray(*this);
}
void setColor(u32 color) override {
PatternData::setColor(color);
for (auto &entry : this->m_entries)
entry->setColor(color);
}
void createEntry(prv::Provider *&provider) override {
if (this->m_entries.empty())
return;
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFF9BC64D), "{0}", this->m_entries[0]->getTypeName());
ImGui::SameLine(0, 0);
ImGui::TextUnformatted("[");
ImGui::SameLine(0, 0);
ImGui::TextFormattedColored(ImColor(0xFF00FF00), "{0}", this->m_entries.size());
ImGui::SameLine(0, 0);
ImGui::TextUnformatted("]");
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", this->formatDisplayValue("{ ... }", this));
}
if (open) {
for (u64 i = 0; i < this->m_entries.size(); i++) {
this->m_entries[i]->draw(provider);
if (i >= (this->m_displayEnd - 1)) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::Selectable("... (Double-click to see more items)", false, ImGuiSelectableFlags_SpanAllColumns);
if (ImGui::IsItemHovered() && ImGui::IsMouseDoubleClicked(ImGuiMouseButton_Left))
this->m_displayEnd += 50;
break;
}
}
if (!this->isInlined())
ImGui::TreePop();
} else {
this->m_displayEnd = 50;
}
}
void getHighlightedAddresses(std::map<u64, u32> &highlight) const override {
for (auto &entry : this->m_entries) {
entry->getHighlightedAddresses(highlight);
}
}
[[nodiscard]] std::string getFormattedName() const override {
return this->m_entries[0]->getTypeName() + "[" + std::to_string(this->m_entries.size()) + "]";
}
void setOffset(u64 offset) override {
for (auto &entry : this->m_entries)
entry->setOffset(entry->getOffset() - this->getOffset() + offset);
PatternData::setOffset(offset);
}
[[nodiscard]] const std::vector<PatternData *> &getEntries() {
return this->m_entries;
}
void setEntries(const std::vector<PatternData *> &entries) {
this->m_entries = entries;
if (this->hasOverriddenColor()) {
for (auto &entry : this->m_entries) {
entry->setColor(this->getColor());
}
}
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherArray = *static_cast<const PatternDataDynamicArray *>(&other);
if (this->m_entries.size() != otherArray.m_entries.size())
return false;
for (u64 i = 0; i < this->m_entries.size(); i++) {
if (*this->m_entries[i] != *otherArray.m_entries[i])
return false;
}
return true;
}
[[nodiscard]] const PatternData *getPattern(u64 offset) const override {
if (this->isHidden()) return nullptr;
for (auto pattern : this->m_entries) {
auto result = pattern->getPattern(offset);
if (result != nullptr)
return result;
}
return nullptr;
}
void setEndian(std::endian endian) override {
for (auto &entry : this->m_entries) {
entry->setEndian(endian);
}
PatternData::setEndian(endian);
}
private:
std::vector<PatternData *> m_entries;
u64 m_displayEnd = 50;
};
class PatternDataStaticArray : public PatternData,
public Inlinable {
public:
PatternDataStaticArray(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
PatternDataStaticArray(const PatternDataStaticArray &other) : PatternData(other) {
this->setEntries(other.getTemplate()->clone(), other.getEntryCount());
}
~PatternDataStaticArray() override {
delete this->m_template;
delete this->m_highlightTemplate;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataStaticArray(*this);
}
void createEntry(prv::Provider *&provider) override {
if (this->getEntryCount() == 0)
return;
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFF9BC64D), "{0}", this->m_template->getTypeName().c_str());
ImGui::SameLine(0, 0);
ImGui::TextUnformatted("[");
ImGui::SameLine(0, 0);
ImGui::TextFormattedColored(ImColor(0xFF00FF00), "{0}", this->m_entryCount);
ImGui::SameLine(0, 0);
ImGui::TextUnformatted("]");
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", this->formatDisplayValue("{ ... }", this));
}
if (open) {
auto entry = this->m_template->clone();
for (u64 index = 0; index < this->m_entryCount; index++) {
entry->setVariableName(hex::format("[{0}]", index));
entry->setOffset(this->getOffset() + index * this->m_template->getSize());
entry->draw(provider);
if (index >= (this->m_displayEnd - 1)) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::Selectable("... (Double-click to see more items)", false, ImGuiSelectableFlags_SpanAllColumns);
if (ImGui::IsItemHovered() && ImGui::IsMouseDoubleClicked(ImGuiMouseButton_Left))
this->m_displayEnd += 50;
break;
}
}
delete entry;
if (!this->isInlined())
ImGui::TreePop();
} else {
this->m_displayEnd = 50;
}
}
void getHighlightedAddresses(std::map<u64, u32> &highlight) const override {
auto entry = this->m_template->clone();
for (u64 address = this->getOffset(); address < this->getOffset() + this->getSize(); address += entry->getSize()) {
entry->setOffset(address);
entry->getHighlightedAddresses(highlight);
}
delete entry;
}
void setOffset(u64 offset) override {
this->m_template->setOffset(this->m_template->getOffset() - this->getOffset() + offset);
PatternData::setOffset(offset);
}
void setColor(u32 color) override {
PatternData::setColor(color);
this->m_template->setColor(color);
}
[[nodiscard]] std::string getFormattedName() const override {
return this->m_template->getTypeName() + "[" + std::to_string(this->m_entryCount) + "]";
}
[[nodiscard]] PatternData *getTemplate() const {
return this->m_template;
}
[[nodiscard]] size_t getEntryCount() const {
return this->m_entryCount;
}
void setEntryCount(size_t count) {
this->m_entryCount = count;
}
void setEntries(PatternData *templatePattern, size_t count) {
this->m_template = templatePattern;
this->m_highlightTemplate = this->m_template->clone();
this->m_entryCount = count;
if (this->hasOverriddenColor()) this->setColor(this->m_template->getColor());
this->m_template->setEndian(templatePattern->getEndian());
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherArray = *static_cast<const PatternDataStaticArray *>(&other);
return *this->m_template == *otherArray.m_template && this->m_entryCount == otherArray.m_entryCount;
}
[[nodiscard]] const PatternData *getPattern(u64 offset) const override {
if (this->isHidden()) return nullptr;
if (offset >= this->getOffset() && offset < (this->getOffset() + this->getSize())) {
this->m_highlightTemplate->setOffset((offset / this->m_highlightTemplate->getSize()) * this->m_highlightTemplate->getSize());
return this->m_highlightTemplate->getPattern(offset);
} else {
return nullptr;
}
}
void setEndian(std::endian endian) override {
this->m_template->setEndian(endian);
PatternData::setEndian(endian);
}
private:
PatternData *m_template = nullptr;
mutable PatternData *m_highlightTemplate = nullptr;
size_t m_entryCount = 0;
u64 m_displayEnd = 50;
};
class PatternDataStruct : public PatternData,
public Inlinable {
public:
PatternDataStruct(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
PatternDataStruct(const PatternDataStruct &other) : PatternData(other) {
for (const auto &member : other.m_members)
this->m_members.push_back(member->clone());
this->m_sortedMembers = this->m_members;
}
~PatternDataStruct() override {
for (const auto &member : this->m_members)
delete member;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataStruct(*this);
}
void createEntry(prv::Provider *&provider) override {
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - (this->getSize() == 0 ? 0 : 1));
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFFD69C56), "struct");
ImGui::SameLine();
ImGui::TextUnformatted(this->getTypeName().c_str());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", this->formatDisplayValue("{ ... }", this));
}
if (open) {
for (auto &member : this->m_sortedMembers)
member->draw(provider);
if (!this->isInlined())
ImGui::TreePop();
}
}
void getHighlightedAddresses(std::map<u64, u32> &highlight) const override {
for (auto &member : this->m_members) {
member->getHighlightedAddresses(highlight);
}
}
void setOffset(u64 offset) override {
for (auto &member : this->m_members)
member->setOffset(member->getOffset() - this->getOffset() + offset);
PatternData::setOffset(offset);
}
void setColor(u32 color) override {
PatternData::setColor(color);
for (auto &member : this->m_members) {
if (!member->hasOverriddenColor())
member->setColor(color);
}
}
void sort(ImGuiTableSortSpecs *sortSpecs, prv::Provider *provider) override {
this->m_sortedMembers = this->m_members;
std::sort(this->m_sortedMembers.begin(), this->m_sortedMembers.end(), [&sortSpecs, &provider](PatternData *left, PatternData *right) {
return PatternData::sortPatternDataTable(sortSpecs, provider, left, right);
});
for (auto &member : this->m_members)
member->sort(sortSpecs, provider);
}
[[nodiscard]] std::string getFormattedName() const override {
return "struct " + PatternData::getTypeName();
}
[[nodiscard]] const auto &getMembers() const {
return this->m_members;
}
void setMembers(const std::vector<PatternData *> &members) {
this->m_members.clear();
for (auto &member : members) {
if (member == nullptr) continue;
this->m_members.push_back(member);
}
this->m_sortedMembers = this->m_members;
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherStruct = *static_cast<const PatternDataStruct *>(&other);
if (this->m_members.size() != otherStruct.m_members.size())
return false;
for (u64 i = 0; i < this->m_members.size(); i++) {
if (*this->m_members[i] != *otherStruct.m_members[i])
return false;
}
return true;
}
[[nodiscard]] const PatternData *getPattern(u64 offset) const override {
if (this->isHidden()) return nullptr;
auto iter = std::find_if(this->m_members.begin(), this->m_members.end(), [offset](PatternData *pattern) {
return offset >= pattern->getOffset() && offset < (pattern->getOffset() + pattern->getSize());
});
if (iter == this->m_members.end())
return nullptr;
else
return (*iter)->getPattern(offset);
}
void setEndian(std::endian endian) override {
for (auto &member : this->m_members) {
if (!member->hasOverriddenEndian())
member->setEndian(endian);
}
PatternData::setEndian(endian);
}
private:
std::vector<PatternData *> m_members;
std::vector<PatternData *> m_sortedMembers;
};
class PatternDataUnion : public PatternData,
public Inlinable {
public:
PatternDataUnion(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
PatternDataUnion(const PatternDataUnion &other) : PatternData(other) {
for (const auto &member : other.m_members)
this->m_members.push_back(member->clone());
this->m_sortedMembers = this->m_members;
}
~PatternDataUnion() override {
for (const auto &member : this->m_members)
delete member;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataUnion(*this);
}
void createEntry(prv::Provider *&provider) override {
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), std::max(this->getOffset() + this->getSize() - (this->getSize() == 0 ? 0 : 1), u64(0)));
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFFD69C56), "union");
ImGui::SameLine();
ImGui::TextUnformatted(PatternData::getTypeName().c_str());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", this->formatDisplayValue("{ ... }", this));
}
if (open) {
for (auto &member : this->m_sortedMembers)
member->draw(provider);
if (!this->isInlined())
ImGui::TreePop();
}
}
void getHighlightedAddresses(std::map<u64, u32> &highlight) const override {
for (auto &member : this->m_members) {
member->getHighlightedAddresses(highlight);
}
}
void setOffset(u64 offset) override {
for (auto &member : this->m_members)
member->setOffset(member->getOffset() - this->getOffset() + offset);
PatternData::setOffset(offset);
}
void setColor(u32 color) override {
PatternData::setColor(color);
for (auto &member : this->m_members) {
if (!member->hasOverriddenColor())
member->setColor(color);
}
}
void sort(ImGuiTableSortSpecs *sortSpecs, prv::Provider *provider) override {
this->m_sortedMembers = this->m_members;
std::sort(this->m_sortedMembers.begin(), this->m_sortedMembers.end(), [&sortSpecs, &provider](PatternData *left, PatternData *right) {
return PatternData::sortPatternDataTable(sortSpecs, provider, left, right);
});
for (auto &member : this->m_members)
member->sort(sortSpecs, provider);
}
[[nodiscard]] std::string getFormattedName() const override {
return "union " + PatternData::getTypeName();
;
}
[[nodiscard]] const auto &getMembers() const {
return this->m_members;
}
void setMembers(const std::vector<PatternData *> &members) {
this->m_members.clear();
for (auto &member : members) {
if (member == nullptr) continue;
this->m_members.push_back(member);
}
this->m_sortedMembers = this->m_members;
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherUnion = *static_cast<const PatternDataUnion *>(&other);
if (this->m_members.size() != otherUnion.m_members.size())
return false;
for (u64 i = 0; i < this->m_members.size(); i++) {
if (*this->m_members[i] != *otherUnion.m_members[i])
return false;
}
return true;
}
[[nodiscard]] const PatternData *getPattern(u64 offset) const override {
if (this->isHidden()) return nullptr;
auto largestMember = std::find_if(this->m_members.begin(), this->m_members.end(), [this](PatternData *pattern) {
return pattern->getSize() == this->getSize();
});
if (largestMember == this->m_members.end())
return nullptr;
else
return (*largestMember)->getPattern(offset);
;
}
void setEndian(std::endian endian) override {
for (auto &member : this->m_members) {
if (!member->hasOverriddenEndian())
member->setEndian(endian);
}
PatternData::setEndian(endian);
}
private:
std::vector<PatternData *> m_members;
std::vector<PatternData *> m_sortedMembers;
};
class PatternDataEnum : public PatternData {
public:
PatternDataEnum(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataEnum(*this);
}
void createEntry(prv::Provider *&provider) override {
u64 value = 0;
provider->read(this->getOffset(), &value, this->getSize());
value = hex::changeEndianess(value, this->getSize(), this->getEndian());
std::string valueString = PatternData::getTypeName() + "::";
bool foundValue = false;
for (auto &[entryValueLiteral, entryName] : this->m_enumValues) {
bool matches = std::visit(overloaded {
[&, name = entryName](auto &&entryValue) {
if (value == entryValue) {
valueString += name;
foundValue = true;
return true;
}
return false;
},
[](std::string &) { return false; },
[](PatternData *) { return false; } },
entryValueLiteral);
if (matches)
break;
}
if (!foundValue)
valueString += "???";
ImGui::TableNextRow();
ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_Leaf | ImGuiTreeNodeFlags_NoTreePushOnOpen | ImGuiTreeNodeFlags_SpanFullWidth | ImGuiTreeNodeFlags_AllowItemOverlap);
this->drawCommentTooltip();
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
ImGui::SameLine();
ImGui::TextUnformatted(this->getDisplayName().c_str());
ImGui::TableNextColumn();
ImGui::ColorButton("color", ImColor(this->getColor()), ImGuiColorEditFlags_NoTooltip, ImVec2(ImGui::GetColumnWidth(), ImGui::GetTextLineHeight()));
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFFD69C56), "enum");
ImGui::SameLine();
ImGui::TextUnformatted(PatternData::getTypeName().c_str());
ImGui::TableNextColumn();
ImGui::TextFormatted("{}", this->formatDisplayValue(hex::format("{} (0x{:0{}X})", valueString.c_str(), value, this->getSize() * 2), this));
}
[[nodiscard]] std::string getFormattedName() const override {
return "enum " + PatternData::getTypeName();
}
[[nodiscard]] const auto &getEnumValues() const {
return this->m_enumValues;
}
void setEnumValues(const std::vector<std::pair<Token::Literal, std::string>> &enumValues) {
this->m_enumValues = enumValues;
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherEnum = *static_cast<const PatternDataEnum *>(&other);
if (this->m_enumValues.size() != otherEnum.m_enumValues.size())
return false;
for (u64 i = 0; i < this->m_enumValues.size(); i++) {
if (this->m_enumValues[i] != otherEnum.m_enumValues[i])
return false;
}
return true;
}
private:
std::vector<std::pair<Token::Literal, std::string>> m_enumValues;
};
class PatternDataBitfieldField : public PatternData {
public:
PatternDataBitfieldField(Evaluator *evaluator, u64 offset, u8 bitOffset, u8 bitSize, PatternData *bitField, u32 color = 0)
: PatternData(evaluator, offset, 0, color), m_bitOffset(bitOffset), m_bitSize(bitSize), m_bitField(bitField) {
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataBitfieldField(*this);
}
void createEntry(prv::Provider *&provider) override {
std::vector<u8> value(this->m_bitField->getSize(), 0);
provider->read(this->m_bitField->getOffset(), &value[0], value.size());
if (this->m_bitField->getEndian() != std::endian::native)
std::reverse(value.begin(), value.end());
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::TextUnformatted(this->getDisplayName().c_str());
ImGui::TableNextColumn();
ImGui::ColorButton("color", ImColor(this->getColor()), ImGuiColorEditFlags_NoTooltip, ImVec2(ImGui::GetColumnWidth(), ImGui::GetTextLineHeight()));
ImGui::TableNextColumn();
if (this->m_bitSize == 1)
ImGui::TextFormatted("0x{0:08X} bit {1}", this->getOffset() + this->m_bitOffset / 8, (this->m_bitOffset + (this->m_bitSize - 1)) % 8);
else
ImGui::TextFormatted("0x{0:08X} bits {1} - {2}", this->getOffset() + this->m_bitOffset / 8, this->m_bitOffset % 8, this->m_bitOffset % 8 + (this->m_bitSize - 1) % 8);
ImGui::TableNextColumn();
if (this->m_bitSize == 1)
ImGui::TextFormatted("{0} bit", this->m_bitSize);
else
ImGui::TextFormatted("{0} bits", this->m_bitSize);
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFF9BC64D), "bits");
ImGui::TableNextColumn();
{
u8 numBytes = (this->m_bitSize / 8) + 1;
u64 extractedValue = hex::extract(this->m_bitOffset + (this->m_bitSize - 1), this->m_bitOffset, value);
ImGui::TextFormatted("{}", this->formatDisplayValue(hex::format("{0} (0x{1:X})", extractedValue, extractedValue), this));
}
}
[[nodiscard]] std::string getFormattedName() const override {
return "bits";
}
[[nodiscard]] u8 getBitOffset() const {
return this->m_bitOffset;
}
[[nodiscard]] u8 getBitSize() const {
return this->m_bitSize;
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherBitfieldField = *static_cast<const PatternDataBitfieldField *>(&other);
return this->m_bitOffset == otherBitfieldField.m_bitOffset && this->m_bitSize == otherBitfieldField.m_bitSize;
}
private:
u8 m_bitOffset, m_bitSize;
PatternData *m_bitField;
};
class PatternDataBitfield : public PatternData,
public Inlinable {
public:
PatternDataBitfield(Evaluator *evaluator, u64 offset, size_t size, u32 color = 0)
: PatternData(evaluator, offset, size, color) {
}
PatternDataBitfield(const PatternDataBitfield &other) : PatternData(other) {
for (auto &field : other.m_fields)
this->m_fields.push_back(field->clone());
}
~PatternDataBitfield() override {
for (auto field : this->m_fields)
delete field;
}
[[nodiscard]] PatternData *clone() const override {
return new PatternDataBitfield(*this);
}
void createEntry(prv::Provider *&provider) override {
std::vector<u8> value(this->getSize(), 0);
provider->read(this->getOffset(), &value[0], value.size());
if (this->m_endian == std::endian::little)
std::reverse(value.begin(), value.end());
bool open = true;
if (!this->isInlined()) {
ImGui::TableNextRow();
ImGui::TableNextColumn();
open = ImGui::TreeNodeEx(this->getDisplayName().c_str(), ImGuiTreeNodeFlags_SpanFullWidth);
ImGui::TableNextColumn();
if (ImGui::Selectable(("##PatternDataLine"s + std::to_string(u64(this))).c_str(), false, ImGuiSelectableFlags_SpanAllColumns | ImGuiSelectableFlags_AllowItemOverlap)) {
ImHexApi::HexEditor::setSelection(this->getOffset(), this->getSize());
}
this->drawCommentTooltip();
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:08X} : 0x{1:08X}", this->getOffset(), this->getOffset() + this->getSize() - 1);
ImGui::TableNextColumn();
ImGui::TextFormatted("0x{0:04X}", this->getSize());
ImGui::TableNextColumn();
ImGui::TextFormattedColored(ImColor(0xFFD69C56), "bitfield");
ImGui::SameLine();
ImGui::TextUnformatted(PatternData::getTypeName().c_str());
ImGui::TableNextColumn();
std::string valueString = "{ ";
for (auto i : value)
valueString += hex::format("{0:02X} ", i);
valueString += "}";
ImGui::TextFormatted("{}", this->formatDisplayValue(valueString, this));
}
if (open) {
for (auto &field : this->m_fields)
field->draw(provider);
if (!this->isInlined())
ImGui::TreePop();
}
}
void setOffset(u64 offset) override {
for (auto &field : this->m_fields)
field->setOffset(field->getOffset() - this->getOffset() + offset);
PatternData::setOffset(offset);
}
[[nodiscard]] std::string getFormattedName() const override {
return "bitfield " + PatternData::getTypeName();
}
[[nodiscard]] const auto &getFields() const {
return this->m_fields;
}
void setFields(const std::vector<PatternData *> &fields) {
this->m_fields = fields;
for (auto &field : this->m_fields) {
field->setSize(this->getSize());
field->setColor(this->getColor());
}
}
void setColor(u32 color) override {
PatternData::setColor(color);
for (auto &field : this->m_fields)
field->setColor(color);
}
[[nodiscard]] bool operator==(const PatternData &other) const override {
if (!areCommonPropertiesEqual<decltype(*this)>(other))
return false;
auto &otherBitfield = *static_cast<const PatternDataBitfield *>(&other);
if (this->m_fields.size() != otherBitfield.m_fields.size())
return false;
for (u64 i = 0; i < this->m_fields.size(); i++) {
if (*this->m_fields[i] != *otherBitfield.m_fields[i])
return false;
}
return true;
}
private:
std::vector<PatternData *> m_fields;
};
}