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mirror of synced 2024-12-24 21:44:51 +01:00
ImHex/lib/libimhex/source/data_processor/node.cpp
2024-07-11 23:30:54 +02:00

209 lines
6.8 KiB
C++

#include <hex/data_processor/node.hpp>
#include <hex/helpers/fmt.hpp>
#include <hex/api/localization_manager.hpp>
#include <hex/providers/provider.hpp>
namespace hex::dp {
int Node::s_idCounter = 1;
static std::atomic_bool s_interrupted;
Node::Node(UnlocalizedString unlocalizedTitle, std::vector<Attribute> attributes) : m_id(s_idCounter++), m_unlocalizedTitle(std::move(unlocalizedTitle)), m_attributes(std::move(attributes)) {
for (auto &attr : m_attributes)
attr.setParentNode(this);
}
void Node::draw() {
this->drawNode();
}
const std::vector<u8>& Node::getBufferOnInput(u32 index) {
auto attribute = this->getConnectedInputAttribute(index);
if (attribute == nullptr)
throwNodeError(hex::format("Nothing connected to input '{0}'", Lang(m_attributes[index].getUnlocalizedName())));
if (attribute->getType() != Attribute::Type::Buffer)
throwNodeError("Tried to read buffer from non-buffer attribute");
markInputProcessed(index);
attribute->getParentNode()->process();
unmarkInputProcessed(index);
auto &outputData = attribute->getOutputData();
if (outputData.empty())
throwNodeError("No data available at connected attribute");
return outputData;
}
const i128& Node::getIntegerOnInput(u32 index) {
auto attribute = this->getConnectedInputAttribute(index);
auto &outputData = [&] -> std::vector<u8>& {
if (attribute != nullptr) {
if (attribute->getType() != Attribute::Type::Integer)
throwNodeError("Tried to read integer from non-integer attribute");
markInputProcessed(index);
attribute->getParentNode()->process();
unmarkInputProcessed(index);
return attribute->getOutputData();
} else {
return this->getAttribute(index).getOutputData();
}
}();
if (outputData.empty())
throwNodeError("No data available at connected attribute");
if (outputData.size() < sizeof(i128))
throwNodeError("Not enough data provided for integer");
return *reinterpret_cast<i128 *>(outputData.data());
}
const double& Node::getFloatOnInput(u32 index) {
auto attribute = this->getConnectedInputAttribute(index);
auto &outputData = [&] -> std::vector<u8>& {
if (attribute != nullptr) {
if (attribute->getType() != Attribute::Type::Float)
throwNodeError("Tried to read integer from non-float attribute");
markInputProcessed(index);
attribute->getParentNode()->process();
unmarkInputProcessed(index);
return attribute->getOutputData();
} else {
return this->getAttribute(index).getOutputData();
}
}();
if (outputData.empty())
throwNodeError("No data available at connected attribute");
if (outputData.size() < sizeof(double))
throwNodeError("Not enough data provided for float");
return *reinterpret_cast<double *>(outputData.data());
}
void Node::setBufferOnOutput(u32 index, std::span<const u8> data) {
if (index >= this->getAttributes().size())
throwNodeError("Attribute index out of bounds!");
auto &attribute = this->getAttributes()[index];
if (attribute.getIOType() != Attribute::IOType::Out)
throwNodeError("Tried to set output data of an input attribute!");
if (attribute.getType() != Attribute::Type::Buffer)
throwNodeError("Tried to set buffer on non-buffer attribute!");
attribute.getOutputData() = { data.begin(), data.end() };
}
void Node::setIntegerOnOutput(u32 index, i128 integer) {
if (index >= this->getAttributes().size())
throwNodeError("Attribute index out of bounds!");
auto &attribute = this->getAttributes()[index];
if (attribute.getIOType() != Attribute::IOType::Out)
throwNodeError("Tried to set output data of an input attribute!");
if (attribute.getType() != Attribute::Type::Integer)
throwNodeError("Tried to set integer on non-integer attribute!");
std::vector<u8> buffer(sizeof(integer), 0);
std::memcpy(buffer.data(), &integer, sizeof(integer));
attribute.getOutputData() = buffer;
}
void Node::setFloatOnOutput(u32 index, double floatingPoint) {
if (index >= this->getAttributes().size())
throwNodeError("Attribute index out of bounds!");
auto &attribute = this->getAttributes()[index];
if (attribute.getIOType() != Attribute::IOType::Out)
throwNodeError("Tried to set output data of an input attribute!");
if (attribute.getType() != Attribute::Type::Float)
throwNodeError("Tried to set float on non-float attribute!");
std::vector<u8> buffer(sizeof(floatingPoint), 0);
std::memcpy(buffer.data(), &floatingPoint, sizeof(floatingPoint));
attribute.getOutputData() = buffer;
}
void Node::setOverlayData(u64 address, const std::vector<u8> &data) {
if (m_overlay == nullptr)
throwNodeError("Tried setting overlay data on a node that's not the end of a chain!");
m_overlay->setAddress(address);
m_overlay->getData() = data;
}
[[noreturn]] void Node::throwNodeError(const std::string &message) {
throw NodeError { this, message };
}
void Node::setAttributes(std::vector<Attribute> attributes) {
m_attributes = std::move(attributes);
for (auto &attr : m_attributes)
attr.setParentNode(this);
}
void Node::setIdCounter(int id) {
if (id > s_idCounter)
s_idCounter = id;
}
Attribute& Node::getAttribute(u32 index) {
if (index >= this->getAttributes().size())
throw std::runtime_error("Attribute index out of bounds!");
return this->getAttributes()[index];
}
Attribute *Node::getConnectedInputAttribute(u32 index) {
const auto &connectedAttribute = this->getAttribute(index).getConnectedAttributes();
if (connectedAttribute.empty())
return nullptr;
return connectedAttribute.begin()->second;
}
void Node::markInputProcessed(u32 index) {
const auto &[iter, inserted] = m_processedInputs.insert(index);
if (!inserted)
throwNodeError("Recursion detected!");
if (s_interrupted) {
s_interrupted = false;
throwNodeError("Execution interrupted!");
}
}
void Node::unmarkInputProcessed(u32 index) {
m_processedInputs.erase(index);
}
void Node::interrupt() {
s_interrupted = true;
}
}