mirror of
https://github.com/Mr-Wiseguy/N64Recomp.git
synced 2024-12-29 10:56:17 +00:00
cc71b31b09
* Remove reference context from parse_mod_symbols argument * Add support for special dependency names (self and base recomp), fix non-compliant offline mod recompiler output * Fix export names not being set on functions when parsing mod syms, add missing returns to mod parsing * Switch offline mod recompilation to use a base global event index instead of per-event global indices * Add support for creating events in normal recompilation * Output recomp API version in offline mod recompiler * Removed dependency version from mod symbols (moved to manifest) * Added mod manifest generation to mod tool * Implement mod file creation in Windows * Fixed some error prints not using stderr * Implement mod file creation on posix systems * De-hardcode symbol file path for offline mod recompiler * Fix duplicate import symbols issue and prevent emitting unused imports
568 lines
22 KiB
C++
568 lines
22 KiB
C++
#ifndef __RECOMP_PORT__
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#define __RECOMP_PORT__
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#include <span>
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#include <string_view>
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#include <cstdint>
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#include <utility>
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#include <vector>
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#include <unordered_map>
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#include <unordered_set>
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#include <filesystem>
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#ifdef _MSC_VER
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inline uint32_t byteswap(uint32_t val) {
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return _byteswap_ulong(val);
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}
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#else
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constexpr uint32_t byteswap(uint32_t val) {
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return __builtin_bswap32(val);
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}
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#endif
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namespace N64Recomp {
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struct Function {
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uint32_t vram;
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uint32_t rom;
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std::vector<uint32_t> words;
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std::string name;
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uint16_t section_index;
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bool ignored;
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bool reimplemented;
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bool stubbed;
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std::unordered_map<int32_t, std::string> function_hooks;
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Function(uint32_t vram, uint32_t rom, std::vector<uint32_t> words, std::string name, uint16_t section_index, bool ignored = false, bool reimplemented = false, bool stubbed = false)
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: vram(vram), rom(rom), words(std::move(words)), name(std::move(name)), section_index(section_index), ignored(ignored), reimplemented(reimplemented), stubbed(stubbed) {}
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Function() = default;
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};
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enum class RelocType : uint8_t {
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R_MIPS_NONE = 0,
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R_MIPS_16,
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R_MIPS_32,
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R_MIPS_REL32,
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R_MIPS_26,
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R_MIPS_HI16,
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R_MIPS_LO16,
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R_MIPS_GPREL16,
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};
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struct Reloc {
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uint32_t address;
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uint32_t target_section_offset;
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uint32_t symbol_index; // Only used for reference symbols and special section symbols
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uint16_t target_section;
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RelocType type;
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bool reference_symbol;
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};
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// Special section indices.
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constexpr uint16_t SectionAbsolute = (uint16_t)-2;
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constexpr uint16_t SectionImport = (uint16_t)-3; // Imported symbols for mods
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constexpr uint16_t SectionEvent = (uint16_t)-4;
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// Special section names.
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constexpr std::string_view PatchSectionName = ".recomp_patch";
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constexpr std::string_view ForcedPatchSectionName = ".recomp_force_patch";
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constexpr std::string_view ExportSectionName = ".recomp_export";
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constexpr std::string_view EventSectionName = ".recomp_event";
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constexpr std::string_view ImportSectionPrefix = ".recomp_import.";
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constexpr std::string_view CallbackSectionPrefix = ".recomp_callback.";
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// Special dependency names.
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constexpr std::string_view DependencySelf = ".";
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constexpr std::string_view DependencyBaseRecomp = "*";
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struct Section {
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uint32_t rom_addr = 0;
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uint32_t ram_addr = 0;
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uint32_t size = 0;
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uint32_t bss_size = 0; // not populated when using a symbol toml
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std::vector<uint32_t> function_addrs; // only used by the CLI (to find the size of static functions)
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std::vector<Reloc> relocs;
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std::string name;
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uint16_t bss_section_index = (uint16_t)-1;
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bool executable = false;
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bool relocatable = false; // TODO is this needed? relocs being non-empty should be an equivalent check.
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bool has_mips32_relocs = false;
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};
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struct ReferenceSection {
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uint32_t rom_addr;
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uint32_t ram_addr;
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uint32_t size;
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bool relocatable;
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};
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struct ReferenceSymbol {
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std::string name;
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uint16_t section_index;
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uint32_t section_offset;
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bool is_function;
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};
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struct ElfParsingConfig {
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std::string bss_section_suffix;
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// Functions with manual size overrides
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std::unordered_map<std::string, size_t> manually_sized_funcs;
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// The section names that were specified as relocatable
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std::unordered_set<std::string> relocatable_sections;
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bool has_entrypoint;
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int32_t entrypoint_address;
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bool use_absolute_symbols;
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bool unpaired_lo16_warnings;
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bool all_sections_relocatable;
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};
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struct DataSymbol {
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uint32_t vram;
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std::string name;
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DataSymbol(uint32_t vram, std::string&& name) : vram(vram), name(std::move(name)) {}
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};
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using DataSymbolMap = std::unordered_map<uint16_t, std::vector<DataSymbol>>;
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extern const std::unordered_set<std::string> reimplemented_funcs;
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extern const std::unordered_set<std::string> ignored_funcs;
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extern const std::unordered_set<std::string> renamed_funcs;
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struct ImportSymbol {
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ReferenceSymbol base;
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size_t dependency_index;
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};
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struct DependencyEvent {
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size_t dependency_index;
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std::string event_name;
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};
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struct EventSymbol {
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ReferenceSymbol base;
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};
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struct Callback {
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size_t function_index;
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size_t dependency_event_index;
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};
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struct SymbolReference {
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// Reference symbol section index, or one of the special section indices such as SectionImport.
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uint16_t section_index;
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size_t symbol_index;
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};
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enum class ReplacementFlags : uint32_t {
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Force = 1 << 0,
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};
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inline ReplacementFlags operator&(ReplacementFlags lhs, ReplacementFlags rhs) { return ReplacementFlags(uint32_t(lhs) & uint32_t(rhs)); }
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inline ReplacementFlags operator|(ReplacementFlags lhs, ReplacementFlags rhs) { return ReplacementFlags(uint32_t(lhs) | uint32_t(rhs)); }
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struct FunctionReplacement {
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uint32_t func_index;
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uint32_t original_section_vrom;
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uint32_t original_vram;
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ReplacementFlags flags;
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};
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class Context {
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private:
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//// Reference symbols (used for populating relocations for patches)
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// A list of the sections that contain the reference symbols.
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std::vector<ReferenceSection> reference_sections;
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// A list of the reference symbols.
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std::vector<ReferenceSymbol> reference_symbols;
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// Mapping of symbol name to reference symbol index.
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std::unordered_map<std::string, SymbolReference> reference_symbols_by_name;
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public:
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std::vector<Section> sections;
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std::vector<Function> functions;
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// A list of the list of each function (by index in `functions`) in a given section
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std::vector<std::vector<size_t>> section_functions;
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// A mapping of vram address to every function with that address.
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std::unordered_map<uint32_t, std::vector<size_t>> functions_by_vram;
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// A mapping of bss section index to the corresponding non-bss section index.
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std::unordered_map<uint16_t, uint16_t> bss_section_to_section;
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// The target ROM being recompiled, TODO move this outside of the context to avoid making a copy for mod contexts.
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// Used for reading relocations and for the output binary feature.
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std::vector<uint8_t> rom;
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//// Only used by the CLI, TODO move this to a struct in the internal headers.
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// A mapping of function name to index in the functions vector
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std::unordered_map<std::string, size_t> functions_by_name;
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//// Mod dependencies and their symbols
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//// Imported values
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// Mapping of dependency name to dependency index.
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std::unordered_map<std::string, size_t> dependencies_by_name;
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// List of symbols imported from dependencies.
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std::vector<ImportSymbol> import_symbols;
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// List of events imported from dependencies.
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std::vector<DependencyEvent> dependency_events;
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// Mappings of dependency event name to the index in dependency_events, all indexed by dependency.
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std::vector<std::unordered_map<std::string, size_t>> dependency_events_by_name;
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// Mappings of dependency import name to index in import_symbols, all indexed by dependency.
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std::vector<std::unordered_map<std::string, size_t>> dependency_imports_by_name;
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//// Exported values
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// List of function replacements, which contains the original function to replace and the function index to replace it with.
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std::vector<FunctionReplacement> replacements;
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// Indices of every exported function.
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std::vector<size_t> exported_funcs;
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// List of callbacks, which contains the function for the callback and the dependency event it attaches to.
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std::vector<Callback> callbacks;
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// List of symbols from events, which contains the names of events that this context provides.
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std::vector<EventSymbol> event_symbols;
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// Imports sections and function symbols from a provided context into this context's reference sections and reference functions.
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bool import_reference_context(const Context& reference_context);
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// Reads a data symbol file and adds its contents into this context's reference data symbols.
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bool read_data_reference_syms(const std::filesystem::path& data_syms_file_path);
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static bool from_symbol_file(const std::filesystem::path& symbol_file_path, std::vector<uint8_t>&& rom, Context& out, bool with_relocs);
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static bool from_elf_file(const std::filesystem::path& elf_file_path, Context& out, const ElfParsingConfig& flags, bool for_dumping_context, DataSymbolMap& data_syms_out, bool& found_entrypoint_out);
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Context() = default;
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bool add_dependency(const std::string& id) {
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if (dependencies_by_name.contains(id)) {
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return false;
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}
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size_t dependency_index = dependencies_by_name.size();
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dependencies_by_name.emplace(id, dependency_index);
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dependency_events_by_name.resize(dependencies_by_name.size());
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dependency_imports_by_name.resize(dependencies_by_name.size());
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return true;
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}
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bool add_dependencies(const std::vector<std::string>& new_dependencies) {
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dependencies_by_name.reserve(dependencies_by_name.size() + new_dependencies.size());
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// Check if any of the dependencies already exist and fail if so.
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for (const std::string& dep : new_dependencies) {
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if (dependencies_by_name.contains(dep)) {
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return false;
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}
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}
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for (const std::string& dep : new_dependencies) {
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size_t dependency_index = dependencies_by_name.size();
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dependencies_by_name.emplace(dep, dependency_index);
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}
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dependency_events_by_name.resize(dependencies_by_name.size());
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dependency_imports_by_name.resize(dependencies_by_name.size());
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return true;
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}
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bool find_dependency(const std::string& mod_id, size_t& dependency_index) {
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auto find_it = dependencies_by_name.find(mod_id);
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if (find_it != dependencies_by_name.end()) {
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dependency_index = find_it->second;
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}
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else {
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// Handle special dependency names.
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if (mod_id == DependencySelf || mod_id == DependencyBaseRecomp) {
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add_dependency(mod_id);
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dependency_index = dependencies_by_name[mod_id];
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}
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else {
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return false;
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}
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}
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return true;
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}
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size_t find_function_by_vram_section(uint32_t vram, size_t section_index) const {
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auto find_it = functions_by_vram.find(vram);
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if (find_it == functions_by_vram.end()) {
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return (size_t)-1;
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}
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for (size_t function_index : find_it->second) {
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if (functions[function_index].section_index == section_index) {
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return function_index;
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}
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}
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return (size_t)-1;
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}
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bool has_reference_symbols() const {
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return !reference_symbols.empty() || !import_symbols.empty() || !event_symbols.empty();
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}
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bool is_regular_reference_section(uint16_t section_index) const {
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return section_index != SectionImport && section_index != SectionEvent;
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}
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bool find_reference_symbol(const std::string& symbol_name, SymbolReference& ref_out) const {
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auto find_sym_it = reference_symbols_by_name.find(symbol_name);
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// Check if the symbol was found.
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if (find_sym_it == reference_symbols_by_name.end()) {
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return false;
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}
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ref_out = find_sym_it->second;
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return true;
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}
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bool reference_symbol_exists(const std::string& symbol_name) const {
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SymbolReference dummy_ref;
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return find_reference_symbol(symbol_name, dummy_ref);
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}
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bool find_regular_reference_symbol(const std::string& symbol_name, SymbolReference& ref_out) const {
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SymbolReference ref_found;
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if (!find_reference_symbol(symbol_name, ref_found)) {
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return false;
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}
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// Ignore reference symbols in special sections.
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if (!is_regular_reference_section(ref_found.section_index)) {
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return false;
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}
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ref_out = ref_found;
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return true;
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}
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const ReferenceSymbol& get_reference_symbol(uint16_t section_index, size_t symbol_index) const {
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if (section_index == SectionImport) {
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return import_symbols[symbol_index].base;
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}
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else if (section_index == SectionEvent) {
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return event_symbols[symbol_index].base;
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}
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return reference_symbols[symbol_index];
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}
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size_t num_regular_reference_symbols() {
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return reference_symbols.size();
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}
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const ReferenceSymbol& get_regular_reference_symbol(size_t index) const {
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return reference_symbols[index];
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}
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const ReferenceSymbol& get_reference_symbol(const SymbolReference& ref) const {
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return get_reference_symbol(ref.section_index, ref.symbol_index);
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}
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bool is_reference_section_relocatable(uint16_t section_index) const {
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if (section_index == SectionAbsolute) {
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return false;
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}
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else if (section_index == SectionImport || section_index == SectionEvent) {
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return true;
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}
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return reference_sections[section_index].relocatable;
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}
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bool add_reference_symbol(const std::string& symbol_name, uint16_t section_index, uint32_t vram, bool is_function) {
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uint32_t section_vram;
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if (section_index == SectionAbsolute) {
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section_vram = 0;
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}
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else if (section_index < reference_sections.size()) {
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section_vram = reference_sections[section_index].ram_addr;
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}
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// Invalid section index.
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else {
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return false;
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}
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// TODO Check if reference_symbols_by_name already contains the name and show a conflict error if so.
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reference_symbols_by_name.emplace(symbol_name, N64Recomp::SymbolReference{
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.section_index = section_index,
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.symbol_index = reference_symbols.size()
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});
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reference_symbols.emplace_back(N64Recomp::ReferenceSymbol{
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.name = symbol_name,
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.section_index = section_index,
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.section_offset = vram - section_vram,
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.is_function = is_function
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});
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return true;
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}
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void add_import_symbol(const std::string& symbol_name, size_t dependency_index) {
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// TODO Check if dependency_imports_by_name[dependency_index] already contains the name and show a conflict error if so.
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dependency_imports_by_name[dependency_index][symbol_name] = import_symbols.size();
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import_symbols.emplace_back(
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N64Recomp::ImportSymbol {
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.base = N64Recomp::ReferenceSymbol {
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.name = symbol_name,
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.section_index = N64Recomp::SectionImport,
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.section_offset = 0,
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.is_function = true
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},
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.dependency_index = dependency_index,
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}
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);
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}
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bool find_import_symbol(const std::string& symbol_name, size_t dependency_index, SymbolReference& ref_out) const {
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if (dependency_index >= dependencies_by_name.size()) {
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return false;
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}
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auto find_it = dependency_imports_by_name[dependency_index].find(symbol_name);
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if (find_it == dependency_imports_by_name[dependency_index].end()) {
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return false;
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}
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ref_out.section_index = SectionImport;
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ref_out.symbol_index = find_it->second;
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return true;
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}
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void add_event_symbol(const std::string& symbol_name) {
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// TODO Check if reference_symbols_by_name already contains the name and show a conflict error if so.
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reference_symbols_by_name[symbol_name] = N64Recomp::SymbolReference {
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.section_index = N64Recomp::SectionEvent,
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.symbol_index = event_symbols.size()
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};
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event_symbols.emplace_back(
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N64Recomp::EventSymbol {
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.base = N64Recomp::ReferenceSymbol {
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.name = symbol_name,
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.section_index = N64Recomp::SectionEvent,
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.section_offset = 0,
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.is_function = true
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}
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}
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);
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}
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bool find_event_symbol(const std::string& symbol_name, SymbolReference& ref_out) const {
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SymbolReference ref_found;
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if (!find_reference_symbol(symbol_name, ref_found)) {
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return false;
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}
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// Ignore reference symbols that aren't in the event section.
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if (ref_found.section_index != SectionEvent) {
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return false;
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}
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ref_out = ref_found;
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return true;
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}
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bool add_dependency_event(const std::string& event_name, size_t dependency_index, size_t& dependency_event_index) {
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if (dependency_index >= dependencies_by_name.size()) {
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return false;
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}
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// Prevent adding the same event to a dependency twice. This isn't an error, since a mod could register
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// multiple callbacks to the same event.
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auto find_it = dependency_events_by_name[dependency_index].find(event_name);
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if (find_it != dependency_events_by_name[dependency_index].end()) {
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dependency_event_index = find_it->second;
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return true;
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}
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dependency_event_index = dependency_events.size();
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dependency_events.emplace_back(DependencyEvent{
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.dependency_index = dependency_index,
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.event_name = event_name
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});
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dependency_events_by_name[dependency_index][event_name] = dependency_event_index;
|
|
return true;
|
|
}
|
|
|
|
bool add_callback(size_t dependency_event_index, size_t function_index) {
|
|
callbacks.emplace_back(Callback{
|
|
.function_index = function_index,
|
|
.dependency_event_index = dependency_event_index
|
|
});
|
|
return true;
|
|
}
|
|
|
|
uint32_t get_reference_section_vram(uint16_t section_index) const {
|
|
if (section_index == N64Recomp::SectionAbsolute) {
|
|
return 0;
|
|
}
|
|
else if (!is_regular_reference_section(section_index)) {
|
|
return 0;
|
|
}
|
|
else {
|
|
return reference_sections[section_index].ram_addr;
|
|
}
|
|
}
|
|
|
|
uint32_t get_reference_section_rom(uint16_t section_index) const {
|
|
if (section_index == N64Recomp::SectionAbsolute) {
|
|
return (uint32_t)-1;
|
|
}
|
|
else if (!is_regular_reference_section(section_index)) {
|
|
return (uint32_t)-1;
|
|
}
|
|
else {
|
|
return reference_sections[section_index].rom_addr;
|
|
}
|
|
}
|
|
|
|
void copy_reference_sections_from(const Context& rhs) {
|
|
reference_sections = rhs.reference_sections;
|
|
}
|
|
};
|
|
|
|
bool recompile_function(const Context& context, const Function& func, std::ofstream& output_file, std::span<std::vector<uint32_t>> static_funcs, bool tag_reference_relocs);
|
|
|
|
enum class ModSymbolsError {
|
|
Good,
|
|
NotASymbolFile,
|
|
UnknownSymbolFileVersion,
|
|
CorruptSymbolFile,
|
|
FunctionOutOfBounds,
|
|
};
|
|
|
|
ModSymbolsError parse_mod_symbols(std::span<const char> data, std::span<const uint8_t> binary, const std::unordered_map<uint32_t, uint16_t>& sections_by_vrom, Context& context_out);
|
|
std::vector<uint8_t> symbols_to_bin_v1(const Context& mod_context);
|
|
|
|
inline bool validate_mod_id(std::string_view str) {
|
|
// Disallow empty ids.
|
|
if (str.size() == 0) {
|
|
return false;
|
|
}
|
|
|
|
// Allow special dependency ids.
|
|
if (str == N64Recomp::DependencySelf || str == N64Recomp::DependencyBaseRecomp) {
|
|
return true;
|
|
}
|
|
|
|
// These following rules basically describe C identifiers. There's no specific reason to enforce them besides colon (currently),
|
|
// so this is just to prevent "weird" mod ids.
|
|
|
|
// Check the first character, which must be alphabetical or an underscore.
|
|
if (!isalpha(str[0]) && str[0] != '_') {
|
|
return false;
|
|
}
|
|
|
|
// Check the remaining characters, which can be alphanumeric or underscore.
|
|
for (char c : str.substr(1)) {
|
|
if (!isalnum(c) && c != '_') {
|
|
return false;
|
|
}
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
inline bool validate_mod_id(const std::string& str) {
|
|
return validate_mod_id(std::string_view{str});
|
|
}
|
|
}
|
|
|
|
#endif
|