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https://github.com/WerWolv/ImHex.git
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17c2dfcbd0
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159 lines
6.9 KiB
C++
159 lines
6.9 KiB
C++
#include <hex/api/content_registry/hex_editor.hpp>
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#include <imgui.h>
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#include <imgui_internal.h>
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#include <hex/api/imhex_api/hex_editor.hpp>
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#include <hex/ui/imgui_imhex_extensions.h>
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#include <hex/helpers/utils.hpp>
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#include <pl/patterns/pattern.hpp>
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#include <wolv/utils/lock.hpp>
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namespace hex::plugin::builtin {
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namespace {
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void entropyMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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std::array<u8, 256> frequencies = { 0 };
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for (u8 byte : data)
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frequencies[byte] += 1;
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double entropy = 0.0;
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for (u32 frequency : frequencies) {
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if (frequency == 0)
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continue;
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double probability = static_cast<double>(frequency) / data.size();
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entropy -= probability * std::log2(probability);
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}
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// Calculate color
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ImColor color = ImColor::HSV(0.0F, 0.0F, 1.0F);
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if (entropy > 0.0) {
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double hue = std::clamp(entropy / 8.0, 0.0, 1.0);
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color = ImColor::HSV(static_cast<float>(hue) / 0.75F, 0.8F, 1.0F);
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}
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output.push_back(color);
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}
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void zerosCountMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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u32 zerosCount = 0;
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for (u8 byte : data) {
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if (byte == 0x00)
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zerosCount += 1;
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}
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output.push_back(ImColor::HSV(0.0F, 0.0F, 1.0F - (double(zerosCount) / data.size())));
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}
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void zerosMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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for (u8 byte : data) {
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if (byte == 0x00)
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output.emplace_back(1.0F, 1.0F, 1.0F, 1.0F);
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else
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output.emplace_back(0.0F, 0.0F, 0.0F, 1.0F);
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}
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}
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void byteTypeMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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for (u8 byte : data) {
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if (std::isalpha(byte))
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output.emplace_back(1.0F, 0.0F, 0.0F, 1.0F);
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else if (std::isdigit(byte))
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output.emplace_back(0.0F, 1.0F, 0.0F, 1.0F);
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else if (std::isspace(byte))
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output.emplace_back(0.0F, 0.0F, 1.0F, 1.0F);
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else if (std::iscntrl(byte))
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output.emplace_back(0.5F, 0.5F, 0.5F, 1.0F);
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else
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output.emplace_back(0.0F, 0.0F, 0.0F, 1.0F);
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}
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}
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void asciiCountMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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u8 asciiCount = 0;
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for (u8 byte : data) {
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if (std::isprint(byte))
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asciiCount += 1;
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}
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output.push_back(ImColor::HSV(0.5F, 0.5F, (double(asciiCount) / data.size())));
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}
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void byteMagnitudeMiniMapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output) {
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for (u8 byte : data) {
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output.push_back(ImColor::HSV(0.0F, 0.0F, static_cast<float>(byte) / 255.0F));
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}
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}
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using ColorFunc = ImColor(*)(std::span<const u8> data);
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void colorMinimapVisualizer(u64, std::span<const u8> data, std::vector<ImColor> &output, size_t colorSize, ColorFunc func) {
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size_t count = data.size() / colorSize;
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for (size_t i = 0; i < count; i += 1) {
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ImColor color = func(data.subspan(i * colorSize));
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output.push_back(color);
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}
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}
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void rgba8MiniMapVisualizer(u64 address, std::span<const u8> data, std::vector<ImColor> &output) {
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colorMinimapVisualizer(address, data, output, 4, [](std::span<const u8> subData) -> ImColor {
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return {subData[0], subData[1], subData[2], 0xFF};
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});
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}
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void rgb565MiniMapVisualizer(u64 address, std::span<const u8> data, std::vector<ImColor> &output) {
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colorMinimapVisualizer(address, data, output, 2, [](std::span<const u8> subData) -> ImColor {
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u8 r = (subData[0] & 0xF8);
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u8 g = ((subData[0] & 0x07) << 5) | ((subData[1] & 0xE0) >> 3);
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u8 b = (subData[1] & 0x1F) << 3;
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return {r, g, b, 0xFF};
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});
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}
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void highlightsMiniMapVisualizer(u64 address, std::span<const u8> data, std::vector<ImColor> &output) {
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for (size_t i = 0; i < data.size(); i += 1) {
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std::optional<ImColor> result;
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for (const auto &[id, callback] : ImHexApi::HexEditor::impl::getBackgroundHighlightingFunctions()) {
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if (auto color = callback(address + i, data.data() + i, 1, result.has_value()); color.has_value())
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result = color;
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}
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if (!result.has_value()) {
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for (const auto &[id, highlighting] : ImHexApi::HexEditor::impl::getBackgroundHighlights()) {
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if (highlighting.getRegion().overlaps({ .address=address, .size=1 })) {
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result = highlighting.getColor();
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break;
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}
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}
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}
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if (result.has_value()) {
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result->Value.w = 1.0F;
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} else {
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if (auto region = ImHexApi::HexEditor::getSelection(); region.has_value()) {
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if (region->overlaps({ .address=address + i, .size=1 }))
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result = 0x60C08080;
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}
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}
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output.push_back(result.value_or(ImColor()));
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}
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}
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}
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void registerMiniMapVisualizers() {
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.highlights", highlightsMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.entropy", entropyMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.zero_count", zerosCountMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.zeros", zerosMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.ascii_count", asciiCountMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.byte_type", byteTypeMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.byte_magnitude", byteMagnitudeMiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.rgba8", rgba8MiniMapVisualizer);
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ContentRegistry::HexEditor::addMiniMapVisualizer("hex.builtin.minimap_visualizer.rgb565", rgb565MiniMapVisualizer);
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}
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} |