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ImHex/plugins/libimhex/source/providers/provider.cpp

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#include <hex/providers/provider.hpp>
#include <hex.hpp>
#include <cmath>
#include <map>
#include <optional>
#include <string>
namespace hex::prv {
Provider::Provider() {
this->m_patches.emplace_back();
}
Provider::~Provider() {
for (auto &overlay : this->m_overlays)
this->deleteOverlay(overlay);
}
void Provider::read(u64 offset, void *buffer, size_t size, bool overlays) {
this->readRaw(offset, buffer, size);
}
void Provider::readRelative(u64 offset, void *buffer, size_t size, bool overlays) {
this->read(offset + this->getBaseAddress(), buffer, size);
}
void Provider::write(u64 offset, const void *buffer, size_t size) {
this->writeRaw(offset, buffer, size);
}
void Provider::writeRelative(u64 offset, const void *buffer, size_t size) {
this->write(offset + this->getBaseAddress(), buffer, size);
}
void Provider::applyOverlays(u64 offset, void *buffer, size_t size) {
for (auto &overlay : this->m_overlays) {
auto overlayOffset = overlay->getAddress();
auto overlaySize = overlay->getSize();
s128 overlapMin = std::max(offset, overlayOffset);
s128 overlapMax = std::min(offset + size, overlayOffset + overlaySize);
if (overlapMax > overlapMin)
std::memcpy(static_cast<u8*>(buffer) + std::max<s128>(0, overlapMin - offset), overlay->getData().data() + std::max<s128>(0, overlapMin - overlayOffset), overlapMax - overlapMin);
}
}
std::map<u64, u8>& Provider::getPatches() {
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return *(this->m_patches.end() - 1 - this->m_patchTreeOffset);
}
void Provider::applyPatches() {
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for (auto &[patchAddress, patch] : getPatches())
this->writeRaw(patchAddress, &patch, 1);
}
Overlay* Provider::newOverlay() {
return this->m_overlays.emplace_back(new Overlay());
}
void Provider::deleteOverlay(Overlay *overlay) {
this->m_overlays.erase(std::find(this->m_overlays.begin(), this->m_overlays.end(), overlay));
delete overlay;
}
const std::list<Overlay*>& Provider::getOverlays() {
return this->m_overlays;
}
u32 Provider::getPageCount() {
return std::ceil(this->getActualSize() / double(PageSize));
}
u32 Provider::getCurrentPage() const {
return this->m_currPage;
}
void Provider::setCurrentPage(u32 page) {
if (page < getPageCount())
this->m_currPage = page;
}
void Provider::setBaseAddress(u64 address) {
this->m_baseAddress = address;
}
u64 Provider::getBaseAddress() {
return this->m_baseAddress + PageSize * this->m_currPage;
}
size_t Provider::getSize() {
return std::min(this->getActualSize() - PageSize * this->m_currPage, PageSize);
}
std::optional<u32> Provider::getPageOfAddress(u64 address) {
u32 page = std::floor((address - this->getBaseAddress()) / double(PageSize));
if (page >= this->getPageCount())
return { };
return page;
}
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void Provider::addPatch(u64 offset, const void *buffer, size_t size) {
if (this->m_patchTreeOffset > 0) {
this->m_patches.erase(this->m_patches.end() - this->m_patchTreeOffset, this->m_patches.end());
this->m_patchTreeOffset = 0;
}
this->m_patches.push_back(getPatches());
for (u64 i = 0; i < size; i++)
getPatches()[offset + i] = reinterpret_cast<const u8*>(buffer)[i];
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}
void Provider::undo() {
if (canUndo())
this->m_patchTreeOffset++;
}
void Provider::redo() {
if (canRedo())
this->m_patchTreeOffset--;
}
bool Provider::canUndo() {
return this->m_patchTreeOffset < this->m_patches.size() - 1;
}
bool Provider::canRedo() {
return this->m_patchTreeOffset > 0;
}
}