Retrieving AVR8 target registers and including them in the TargetDescriptor
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@@ -39,6 +39,78 @@ void Avr8::initFromTargetDescriptionFile() {
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this->targetParameters = this->targetDescriptionFile->getTargetParameters();
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this->padDescriptorsByName = this->targetDescriptionFile->getPadDescriptorsMappedByName();
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this->targetVariantsById = this->targetDescriptionFile->getVariantsMappedById();
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if (!this->targetParameters->stackPointerRegisterLowAddress.has_value()) {
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throw Exception("Failed to load sufficient AVR8 target paramters - missting stack pointer start address");
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}
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if (!this->targetParameters->statusRegisterStartAddress.has_value()) {
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throw Exception("Failed to load sufficient AVR8 target parameters - missting status register start address");
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}
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this->loadTargetRegisterDescriptors();
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}
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void Avr8::loadTargetRegisterDescriptors() {
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this->targetRegisterDescriptorsByType = this->targetDescriptionFile->getRegisterDescriptorsMappedByType();
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/*
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* All AVR8 targets possess 32 general purpose CPU registers. These are not described in the TDF, so we
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* construct the descriptors for them here.
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*/
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for (std::uint8_t i = 0; i <= 31; i++) {
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auto generalPurposeRegisterDescriptor = TargetRegisterDescriptor();
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generalPurposeRegisterDescriptor.id = i;
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generalPurposeRegisterDescriptor.startAddress =
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this->targetParameters->gpRegisterStartAddress.value_or(0) + i;
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generalPurposeRegisterDescriptor.size = 1;
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generalPurposeRegisterDescriptor.type = TargetRegisterType::GENERAL_PURPOSE_REGISTER;
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generalPurposeRegisterDescriptor.name = "R" + std::to_string(i);
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generalPurposeRegisterDescriptor.groupName = "General Purpose CPU Registers";
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this->targetRegisterDescriptorsByType[generalPurposeRegisterDescriptor.type].emplace_back(
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generalPurposeRegisterDescriptor
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);
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}
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/*
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* The SP and SREG registers are described in the TDF, so we could just use the descriptors extracted from the
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* TDF. The problem with that is, sometimes the SP register consists of two bytes; an SPL and an SPH. These need
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* to be combined into one register descriptor. This is why we just use what we already have in
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* this->targetParameters.
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*/
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auto stackPointerRegisterDescriptor = TargetRegisterDescriptor();
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stackPointerRegisterDescriptor.type = TargetRegisterType::STACK_POINTER;
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stackPointerRegisterDescriptor.startAddress = this->targetParameters->stackPointerRegisterLowAddress.value();
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stackPointerRegisterDescriptor.size = this->targetParameters->stackPointerRegisterSize.value();
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stackPointerRegisterDescriptor.name = "SP";
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stackPointerRegisterDescriptor.groupName = "CPU";
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stackPointerRegisterDescriptor.description = "Stack Pointer Register";
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auto statusRegisterDescriptor = TargetRegisterDescriptor();
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statusRegisterDescriptor.type = TargetRegisterType::STATUS_REGISTER;
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statusRegisterDescriptor.startAddress = this->targetParameters->statusRegisterStartAddress.value();
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statusRegisterDescriptor.size = this->targetParameters->statusRegisterSize.value();
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statusRegisterDescriptor.name = "SREG";
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statusRegisterDescriptor.groupName = "CPU";
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statusRegisterDescriptor.description = "Status Register";
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auto programCounterRegisterDescriptor = TargetRegisterDescriptor();
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programCounterRegisterDescriptor.type = TargetRegisterType::PROGRAM_COUNTER;
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programCounterRegisterDescriptor.size = 4;
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programCounterRegisterDescriptor.name = "PC";
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programCounterRegisterDescriptor.groupName = "CPU";
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programCounterRegisterDescriptor.description = "Program Counter";
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this->targetRegisterDescriptorsByType[stackPointerRegisterDescriptor.type].emplace_back(
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stackPointerRegisterDescriptor
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);
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this->targetRegisterDescriptorsByType[statusRegisterDescriptor.type].emplace_back(
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statusRegisterDescriptor
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);
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this->targetRegisterDescriptorsByType[programCounterRegisterDescriptor.type].emplace_back(
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programCounterRegisterDescriptor
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);
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}
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TargetSignature Avr8::getId() {
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@@ -153,6 +225,7 @@ TargetDescriptor Avr8Bit::Avr8::getDescriptor() {
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descriptor.id = this->getHumanReadableId();
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descriptor.name = this->getName();
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descriptor.ramSize = this->targetParameters.value().ramSize.value_or(0);
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descriptor.registerDescriptorsByType = this->targetRegisterDescriptorsByType;
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std::transform(
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this->targetVariantsById.begin(),
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@@ -29,6 +29,7 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit
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std::optional<TargetParameters> targetParameters;
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std::map<std::string, PadDescriptor> padDescriptorsByName;
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std::map<int, TargetVariant> targetVariantsById;
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std::map<TargetRegisterType, std::vector<TargetRegisterDescriptor>> targetRegisterDescriptorsByType;
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/**
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* Resolves the appropriate TDF for the AVR8 target and populates this->targetDescriptionFile.
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@@ -40,6 +41,12 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit
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*/
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void initFromTargetDescriptionFile();
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/**
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* Populates this->targetRegisterDescriptorsByType with registers extracted from the TDF, as well as general
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* purpose and other CPU registers.
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*/
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void loadTargetRegisterDescriptors();
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/**
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* Extracts the ID from the target's memory.
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*
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@@ -17,6 +17,7 @@ using Bloom::Targets::TargetDescription::MemorySegment;
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using Bloom::Targets::TargetDescription::MemorySegmentType;
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using Bloom::Targets::TargetDescription::Register;
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using Bloom::Targets::TargetVariant;
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using Bloom::Targets::TargetRegisterDescriptor;
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TargetDescriptionFile::TargetDescriptionFile(
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const TargetSignature& targetSignature,
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@@ -93,6 +94,7 @@ void TargetDescriptionFile::init(const QDomDocument& xml) {
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this->loadDebugPhysicalInterfaces();
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this->loadPadDescriptors();
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this->loadTargetVariants();
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this->loadTargetRegisterDescriptors();
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}
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QJsonObject TargetDescriptionFile::getTargetDescriptionMapping() {
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@@ -460,6 +462,34 @@ void TargetDescriptionFile::loadTargetVariants() {
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}
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}
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void TargetDescriptionFile::loadTargetRegisterDescriptors() {
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auto& modulesByName = this->modulesMappedByName;
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auto& peripheralModulesByName = this->peripheralModulesMappedByName;
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for (const auto& [moduleName, module] : modulesByName) {
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auto moduleRegisterAddressOffset = this->getRegisterAddressOffsetByModuleName(moduleName);
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for (const auto& [registerGroupName, registerGroup] : module.registerGroupsMappedByName) {
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for (const auto& [moduleRegisterName, moduleRegister] : registerGroup.registersMappedByName) {
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if (moduleRegister.size < 1) {
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continue;
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}
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auto registerDescriptor = TargetRegisterDescriptor();
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registerDescriptor.type = TargetRegisterType::OTHER;
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registerDescriptor.name = moduleRegisterName;
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registerDescriptor.groupName = registerGroupName;
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registerDescriptor.size = moduleRegister.size;
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registerDescriptor.startAddress = moduleRegister.offset + moduleRegisterAddressOffset;
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if (moduleRegister.caption.has_value() && !moduleRegister.caption->empty()) {
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registerDescriptor.description = moduleRegister.caption;
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}
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this->targetRegisterDescriptorsByType[registerDescriptor.type].emplace_back(registerDescriptor);
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}
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}
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}
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}
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std::optional<MemorySegment> TargetDescriptionFile::getFlashMemorySegment() const {
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auto& addressMapping = this->addressSpacesMappedById;
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@@ -1068,3 +1098,36 @@ void TargetDescriptionFile::loadUpdiTargetParameters(TargetParameters& targetPar
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targetParameters.lockbitsSegmentStartAddress = lockbitsMemorySegment->startAddress;
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}
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}
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std::uint32_t TargetDescriptionFile::getRegisterAddressOffsetByModuleName(const std::string& moduleName) const {
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if (this->peripheralModulesMappedByName.contains(moduleName)) {
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auto& peripheralModule = this->peripheralModulesMappedByName.at(moduleName);
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if (peripheralModule.instancesMappedByName.contains(moduleName)) {
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auto& moduleInstance = peripheralModule.instancesMappedByName.at(moduleName);
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if (moduleInstance.registerGroupsMappedByName.contains(moduleName)) {
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auto& registerGroup = moduleInstance.registerGroupsMappedByName.at(moduleName);
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if (!registerGroup.moduleName.has_value() || registerGroup.moduleName.value() == moduleName) {
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return registerGroup.offset.value_or(0);
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}
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}
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/*
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* If we get here, that means we couldn't find the right register group by module name. This will happen
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* if the register group name doesn't match the module name attribute ("name-in-module") against the
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* register group node, in the TDF.
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*
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* As a final attempt, we'll brute force search all register groups in the module instance.
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*/
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for (const auto& [registerGroupName, registerGroup] : moduleInstance.registerGroupsMappedByName) {
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if (registerGroup.moduleName.has_value() && registerGroup.moduleName.value() == moduleName) {
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return registerGroup.offset.value_or(0);
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}
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}
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}
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}
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return 0;
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}
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@@ -55,6 +55,8 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit::TargetDescription
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std::map<std::string, PadDescriptor> padDescriptorsByName;
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std::map<int, TargetVariant> targetVariantsById;
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std::map<TargetRegisterType, TargetRegisterDescriptors> targetRegisterDescriptorsByType;
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/**
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* Populates this->supportedDebugPhysicalInterfaces with physical interfaces defined in the TDF.
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*/
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@@ -70,6 +72,11 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit::TargetDescription
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*/
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void loadTargetVariants();
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/**
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* Loads all register descriptors from the TDF, and populates this->targetRegisterDescriptorsByType.
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*/
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void loadTargetRegisterDescriptors();
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[[nodiscard]] std::optional<Targets::TargetDescription::MemorySegment> getFlashMemorySegment() const;
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[[nodiscard]] std::optional<Targets::TargetDescription::MemorySegment> getRamMemorySegment() const;
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[[nodiscard]] std::optional<Targets::TargetDescription::MemorySegment> getIoMemorySegment() const;
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@@ -117,6 +124,14 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit::TargetDescription
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*/
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virtual void loadUpdiTargetParameters(TargetParameters& targetParameters) const;
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/**
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* Extracts the register address offset, for registers from a particular module.
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*
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* @param moduleName
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* @return
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*/
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[[nodiscard]] virtual std::uint32_t getRegisterAddressOffsetByModuleName(const std::string& moduleName) const;
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public:
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/**
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* Will resolve the target description file using the target description JSON mapping and a given target signature.
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@@ -177,6 +192,15 @@ namespace Bloom::Targets::Microchip::Avr::Avr8Bit::TargetDescription
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[[nodiscard]] const auto& getVariantsMappedById() const {
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return this->targetVariantsById;
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};
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}
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/**
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* Returns a mapping of all target register descriptors extracted from the TDF, by type.
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*
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* @return
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*/
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[[nodiscard]] const auto& getRegisterDescriptorsMappedByType() const {
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return this->targetRegisterDescriptorsByType;
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}
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};
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}
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