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ImHex/lib/libimhex/source/api/imhex_api.cpp
2022-06-27 17:01:21 +02:00

366 lines
9.8 KiB
C++

#include <hex/api/imhex_api.hpp>
#include <hex/api/event.hpp>
#include <hex/providers/provider.hpp>
#include <utility>
#include <unistd.h>
#include <imgui.h>
namespace hex {
namespace ImHexApi::Common {
void closeImHex(bool noQuestions) {
EventManager::post<RequestCloseImHex>(noQuestions);
}
void restartImHex() {
EventManager::post<RequestCloseImHex>(false);
std::atexit([] {
auto &programArgs = ImHexApi::System::getProgramArguments();
execve(programArgs.argv[0], programArgs.argv, programArgs.envp);
});
}
}
namespace ImHexApi::HexEditor {
Highlighting::Highlighting(Region region, color_t color)
: m_region(region), m_color(color) {
}
Tooltip::Tooltip(Region region, std::string value, color_t color) : m_region(region), m_value(std::move(value)), m_color(color) {
}
namespace impl {
static std::map<u32, Highlighting> s_backgroundHighlights;
std::map<u32, Highlighting> &getBackgroundHighlights() {
return s_backgroundHighlights;
}
static std::map<u32, HighlightingFunction> s_backgroundHighlightingFunctions;
std::map<u32, HighlightingFunction> &getBackgroundHighlightingFunctions() {
return s_backgroundHighlightingFunctions;
}
static std::map<u32, Highlighting> s_foregroundHighlights;
std::map<u32, Highlighting> &getForegroundHighlights() {
return s_foregroundHighlights;
}
static std::map<u32, HighlightingFunction> s_foregroundHighlightingFunctions;
std::map<u32, HighlightingFunction> &getForegroundHighlightingFunctions() {
return s_foregroundHighlightingFunctions;
}
static std::map<u32, Tooltip> s_tooltips;
std::map<u32, Tooltip> &getTooltips() {
return s_tooltips;
}
static std::map<u32, TooltipFunction> s_tooltipFunctions;
std::map<u32, TooltipFunction> &getTooltipFunctions() {
return s_tooltipFunctions;
}
}
u32 addBackgroundHighlight(const Region &region, color_t color) {
static u32 id = 0;
id++;
impl::getBackgroundHighlights().insert({
id, Highlighting {region, color}
});
EventManager::post<EventHighlightingChanged>();
return id;
}
void removeBackgroundHighlight(u32 id) {
impl::getBackgroundHighlights().erase(id);
EventManager::post<EventHighlightingChanged>();
}
u32 addBackgroundHighlightingProvider(const impl::HighlightingFunction &function) {
static u32 id = 0;
id++;
impl::getBackgroundHighlightingFunctions().insert({ id, function });
EventManager::post<EventHighlightingChanged>();
return id;
}
void removeBackgroundHighlightingProvider(u32 id) {
impl::getBackgroundHighlightingFunctions().erase(id);
EventManager::post<EventHighlightingChanged>();
}
u32 addForegroundHighlight(const Region &region, color_t color) {
static u32 id = 0;
id++;
impl::getForegroundHighlights().insert({
id, Highlighting {region, color}
});
EventManager::post<EventHighlightingChanged>();
return id;
}
void removeForegroundHighlight(u32 id) {
impl::getForegroundHighlights().erase(id);
EventManager::post<EventHighlightingChanged>();
}
u32 addForegroundHighlightingProvider(const impl::HighlightingFunction &function) {
static u32 id = 0;
id++;
impl::getForegroundHighlightingFunctions().insert({ id, function });
EventManager::post<EventHighlightingChanged>();
return id;
}
void removeForegroundHighlightingProvider(u32 id) {
impl::getForegroundHighlightingFunctions().erase(id);
EventManager::post<EventHighlightingChanged>();
}
static u32 tooltipId = 0;
u32 addTooltip(Region region, std::string value, color_t color) {
tooltipId++;
impl::getTooltips().insert({ tooltipId, { region, std::move(value), color } });
return tooltipId;
}
void removeTooltip(u32 id) {
impl::getTooltips().erase(id);
}
static u32 tooltipFunctionId;
u32 addTooltipProvider(TooltipFunction function) {
tooltipFunctionId++;
impl::getTooltipFunctions().insert({ tooltipFunctionId, std::move(function) });
return tooltipFunctionId;
}
void removeTooltipProvider(u32 id) {
impl::getTooltipFunctions().erase(id);
}
bool isSelectionValid() {
return getSelection().has_value();
}
std::optional<Region> getSelection() {
std::optional<Region> selection;
EventManager::post<QuerySelection>(selection);
return selection;
}
void setSelection(const Region &region) {
EventManager::post<RequestSelectionChange>(region);
}
void setSelection(u64 address, size_t size) {
setSelection({ address, size });
}
}
namespace ImHexApi::Bookmarks {
void add(Region region, const std::string &name, const std::string &comment, u32 color) {
EventManager::post<RequestAddBookmark>(region, name, comment, color);
}
void add(u64 address, size_t size, const std::string &name, const std::string &comment, u32 color) {
add(Region { address, size }, name, comment, color);
}
}
namespace ImHexApi::Provider {
static u32 s_currentProvider;
static std::vector<prv::Provider *> s_providers;
prv::Provider *get() {
if (!ImHexApi::Provider::isValid())
return nullptr;
return s_providers[s_currentProvider];
}
const std::vector<prv::Provider *> &getProviders() {
return s_providers;
}
void setCurrentProvider(u32 index) {
if (index < s_providers.size()) {
auto oldProvider = get();
s_currentProvider = index;
EventManager::post<EventProviderChanged>(oldProvider, get());
}
}
bool isValid() {
return !s_providers.empty() && s_currentProvider < s_providers.size();
}
void add(prv::Provider *provider) {
s_providers.push_back(provider);
setCurrentProvider(s_providers.size() - 1);
EventManager::post<EventProviderCreated>(provider);
}
void remove(prv::Provider *provider) {
auto it = std::find(s_providers.begin(), s_providers.end(), provider);
s_providers.erase(it);
if (it - s_providers.begin() == s_currentProvider && !s_providers.empty())
setCurrentProvider(0);
delete provider;
}
}
namespace ImHexApi::Tasks {
Task createTask(const std::string &unlocalizedName, u64 maxValue) {
return { unlocalizedName, maxValue };
}
void doLater(const std::function<void()> &function) {
static std::mutex tasksMutex;
std::scoped_lock lock(tasksMutex);
getDeferredCalls().push_back(function);
}
std::vector<std::function<void()>> &getDeferredCalls() {
static std::vector<std::function<void()>> deferredCalls;
return deferredCalls;
}
}
namespace ImHexApi::System {
namespace impl {
static ImVec2 s_mainWindowPos;
static ImVec2 s_mainWindowSize;
void setMainWindowPosition(u32 x, u32 y) {
s_mainWindowPos = ImVec2(x, y);
}
void setMainWindowSize(u32 width, u32 height) {
s_mainWindowSize = ImVec2(width, height);
}
static ImGuiID s_mainDockSpaceId;
void setMainDockSpaceId(ImGuiID id) {
s_mainDockSpaceId = id;
}
static float s_globalScale = 1.0;
void setGlobalScale(float scale) {
s_globalScale = scale;
}
static ProgramArguments s_programArguments;
void setProgramArguments(int argc, char **argv, char **envp) {
s_programArguments.argc = argc;
s_programArguments.argv = argv;
s_programArguments.envp = envp;
}
static bool s_borderlessWindowMode;
void setBorderlessWindowMode(bool enabled) {
s_borderlessWindowMode = enabled;
}
}
const ProgramArguments &getProgramArguments() {
return impl::s_programArguments;
}
static float s_targetFPS = 60.0F;
float getTargetFPS() {
return s_targetFPS;
}
void setTargetFPS(float fps) {
s_targetFPS = fps;
}
float getGlobalScale() {
return impl::s_globalScale;
}
ImVec2 getMainWindowPosition() {
return impl::s_mainWindowPos;
}
ImVec2 getMainWindowSize() {
return impl::s_mainWindowSize;
}
ImGuiID getMainDockSpaceId() {
return impl::s_mainDockSpaceId;
}
bool isBorderlessWindowModeEnabled() {
return impl::s_borderlessWindowMode;
}
std::map<std::string, std::string> &getInitArguments() {
static std::map<std::string, std::string> initArgs;
return initArgs;
}
}
}