149 lines
4 KiB
C++
149 lines
4 KiB
C++
#include "stdlib.hpp"
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#include "common.hpp"
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#include "pod.hpp"
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#include "writer.hpp"
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typedef Result<Value> (*StdlibFunctionIdPtr)(const Array& params);
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struct StdlibFunctionEntry {
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const char* name;
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StdlibFunctionId fun_id;
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StdlibFunctionIdPtr fun_ptr;
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};
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Result<Value> stdlib_unknown(const Array& params) {
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return ERROR(NotImplemented);
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}
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Result<void> print_string(const String& s) {
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auto ba = TRY(ByteArray::create(s));
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for (uint64_t i = 0; i < ba.size(); i++) {
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std::cout << TRY(ba[i]);
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}
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return Result<void>();
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}
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Result<Value> stdlib_print(const Array& params) {
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for (uint64_t i = 0; i < params.size(); i++) {
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Value param = TRY(params.get(i));
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if (i != 0) {
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std::cout << " ";
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}
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if (param.is<String>()) {
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TRY(print_string(*param.to<String>()));
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} else {
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auto s = TRY(write_one(param));
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TRY(print_string(s));
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}
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}
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return Value(TRY(Nil::create()));
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}
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Result<Value> stdlib_println(const Array& params) {
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TRY(stdlib_print(params));
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std::cout << "\n";
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return Value(TRY(Nil::create()));
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}
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Result<Value> stdlib_prn(const Array& params) { return ERROR(NotImplemented); }
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Result<Value> stdlib_assert(const Array& params) {
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for (uint64_t i = 0; i < params.size(); i++) {
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Value param = TRY(params.get(i));
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if (!param.is<Bool>()) return ERROR(AssertionFailed);
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auto v = param.to<Bool>()->value();
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if (!v) return ERROR(AssertionFailed);
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}
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return Value(TRY(Nil::create()));
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}
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Result<Value> stdlib_dict(const Array& params) {
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Value d = TRY(Dict::create(params));
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return d;
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}
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Result<Value> stdlib_list(const Array& params) {
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Value d = TRY(Pair::create(params));
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return d;
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}
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Result<Value> stdlib_get(const Array& params) {
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if (params.size() != 2) return ERROR(ArgumentCountMismatch);
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Value collection = TRY(params.get(0));
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Value key = TRY(params.get(1));
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return TRY(collection.get(key));
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}
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#define STDLIB_FUNCTION(name, id) \
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[(uint64_t)StdlibFunctionId::id] = {#name, StdlibFunctionId::id, \
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stdlib_##name}
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static StdlibFunctionEntry function_entries[] = {
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STDLIB_FUNCTION(unknown, Unknown),
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STDLIB_FUNCTION(print, Print),
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STDLIB_FUNCTION(println, PrintLn),
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STDLIB_FUNCTION(prn, Prn),
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STDLIB_FUNCTION(assert, Assert),
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STDLIB_FUNCTION(dict, Dict),
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STDLIB_FUNCTION(list, List),
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STDLIB_FUNCTION(get, Get),
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[(uint64_t)StdlibFunctionId::Max] = {0, StdlibFunctionId::Max,
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stdlib_unknown},
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};
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// TODO: this just scans through the array of functions linearly every time.
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// It doesn't have much effect at runtime, because such lookup is likely to
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// happen on compile-time only. But anyway, this is worth speeding up
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// eventually.
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StdlibFunctionEntry get_function_entry(const char* name) {
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for (uint64_t i = 1; i < (uint64_t)StdlibFunctionId::Max; i++) {
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if (strcmp(function_entries[i].name, name) == 0) {
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return function_entries[i];
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}
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}
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return function_entries[(uint64_t)StdlibFunctionId::Unknown];
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}
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Result<StdlibFunctionId> get_stdlib_function(const Symbol& name) {
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const uint64_t bufsize = 256;
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char buf[bufsize];
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if (name.size() + 1 > bufsize) {
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return ERROR(KeyError);
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}
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for (uint64_t i = 0; i < name.size(); i++) {
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buf[i] = (char)TRY(name[i]);
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}
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buf[name.size()] = 0;
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StdlibFunctionId fun_id = get_function_entry(buf).fun_id;
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if (fun_id == StdlibFunctionId::Unknown) {
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return ERROR(KeyError);
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}
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return fun_id;
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}
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Result<Value> call_stdlib_function(StdlibFunctionId fun_id,
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const Array& params) {
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if (fun_id == StdlibFunctionId(0) || fun_id >= StdlibFunctionId::Max) {
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return ERROR(KeyError);
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}
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return function_entries[(uint64_t)fun_id].fun_ptr(params);
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}
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Result<const char*> get_stdlib_function_name(StdlibFunctionId fun_id) {
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if (fun_id == StdlibFunctionId(0) || fun_id >= StdlibFunctionId::Max) {
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return ERROR(KeyError);
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}
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return function_entries[(uint64_t)fun_id].name;
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}
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