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mirror of https://github.com/kanaka/mal.git synced 2024-11-10 12:47:45 +03:00
mal/cpp/step6_file.cpp
Stephen Thirlwall 0997015d97 Split ASSERT into ASSERT and MAL_CHECK/MAL_FAIL
* ASSERT is to check for internal errors
* MAL_CHECK / MAL_FAIL is to check mal code errors
2015-03-28 22:54:26 +11:00

200 lines
5.7 KiB
C++

#include "MAL.h"
#include "Environment.h"
#include "ReadLine.h"
#include "Types.h"
#include <iostream>
#include <memory>
malValuePtr READ(const String& input);
String PRINT(malValuePtr ast);
static void installFunctions(malEnvPtr env);
static void makeArgv(malEnvPtr env, int argc, char* argv[]);
static void safeRep(const String& input, malEnvPtr env);
static ReadLine s_readLine("~/.mal-history");
int main(int argc, char* argv[])
{
String prompt = "user> ";
String input;
malEnvPtr replEnv(new malEnv);
installCore(replEnv);
installFunctions(replEnv);
makeArgv(replEnv, argc - 2, argv + 2);
if (argc > 1) {
String filename = escape(argv[1]);
safeRep(STRF("(load-file %s)", filename.c_str()), replEnv);
return 0;
}
while (s_readLine.get(prompt, input)) {
safeRep(input, replEnv);
}
return 0;
}
static void safeRep(const String& input, malEnvPtr env)
{
String out;
try {
out = rep(input, env);
}
catch (malEmptyInputException&) {
return;
}
catch (String& s) {
out = s;
};
std::cout << out << "\n";
}
static void makeArgv(malEnvPtr env, int argc, char* argv[])
{
malValueVec* args = new malValueVec();
for (int i = 0; i < argc; i++) {
args->push_back(mal::string(argv[i]));
}
env->set("*ARGV*", mal::list(args));
}
String rep(const String& input, malEnvPtr env)
{
return PRINT(EVAL(READ(input), env));
}
malValuePtr READ(const String& input)
{
return readStr(input);
}
malValuePtr EVAL(malValuePtr ast, malEnvPtr env)
{
while (1) {
const malList* list = DYNAMIC_CAST(malList, ast);
if (!list || (list->count() == 0)) {
return ast->eval(env);
}
// From here on down we are evaluating a non-empty list.
// First handle the special forms.
if (const malSymbol* symbol = DYNAMIC_CAST(malSymbol, list->item(0))) {
String special = symbol->value();
int argCount = list->count() - 1;
if (special == "def!") {
checkArgsIs("def!", 2, argCount);
const malSymbol* id = VALUE_CAST(malSymbol, list->item(1));
return env->set(id->value(), EVAL(list->item(2), env));
}
if (special == "do") {
checkArgsAtLeast("do", 1, argCount);
for (int i = 1; i < argCount; i++) {
EVAL(list->item(i), env);
}
ast = list->item(argCount);
continue; // TCO
}
if (special == "fn*") {
checkArgsIs("fn*", 2, argCount);
const malSequence* bindings =
VALUE_CAST(malSequence, list->item(1));
StringVec params;
for (int i = 0; i < bindings->count(); i++) {
const malSymbol* sym =
VALUE_CAST(malSymbol, bindings->item(i));
params.push_back(sym->value());
}
return mal::lambda(params, list->item(2), env);
}
if (special == "if") {
checkArgsBetween("if", 2, 3, argCount);
bool isTrue = EVAL(list->item(1), env)->isTrue();
if (!isTrue && (argCount == 2)) {
return mal::nilValue();
}
ast = list->item(isTrue ? 2 : 3);
continue; // TCO
}
if (special == "let*") {
checkArgsIs("let*", 2, argCount);
const malSequence* bindings =
VALUE_CAST(malSequence, list->item(1));
int count = checkArgsEven("let*", bindings->count());
malEnvPtr inner(new malEnv(env));
for (int i = 0; i < count; i += 2) {
const malSymbol* var =
VALUE_CAST(malSymbol, bindings->item(i));
inner->set(var->value(), EVAL(bindings->item(i+1), inner));
}
ast = list->item(2);
env = inner;
continue; // TCO
}
}
// Now we're left with the case of a regular list to be evaluated.
std::unique_ptr<malValueVec> items(list->evalItems(env));
malValuePtr op = items->at(0);
if (const malLambda* lambda = DYNAMIC_CAST(malLambda, op)) {
ast = lambda->getBody();
env = lambda->makeEnv(items->begin()+1, items->end());
continue; // TCO
}
else {
return APPLY(op, items->begin()+1, items->end(), env);
}
}
}
String PRINT(malValuePtr ast)
{
return ast->print(true);
}
malValuePtr APPLY(malValuePtr op, malValueIter argsBegin, malValueIter argsEnd,
malEnvPtr env)
{
const malApplicable* handler = DYNAMIC_CAST(malApplicable, op);
MAL_CHECK(handler != NULL,
"\"%s\" is not applicable", op->print(true).c_str());
return handler->apply(argsBegin, argsEnd, env);
}
static const char* malFunctionTable[] = {
"(def! list (fn* (& items) items))",
"(def! not (fn* (cond) (if cond false true)))",
"(def! >= (fn* (a b) (<= b a)))",
"(def! < (fn* (a b) (not (<= b a))))",
"(def! > (fn* (a b) (not (<= a b))))",
"(def! load-file (fn* (filename) \
(eval (read-string (str \"(do \" (slurp filename) \")\")))))",
};
static void installFunctions(malEnvPtr env) {
for (auto &function : malFunctionTable) {
rep(function, env);
}
}
// Added to keep the linker happy at step A
malValuePtr readline(const String& prompt)
{
String input;
if (s_readLine.get(prompt, input)) {
return mal::string(input);
}
return mal::nilValue();
}