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Added _every() and _some()

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This commit is contained in:
Kayne Ruse
2023-02-10 15:00:15 +00:00
parent c81a139c97
commit 3ba2e420ea
4 changed files with 304 additions and 5 deletions
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234
repl/lib_compound.c
View File

@@ -115,6 +115,121 @@ static int nativeConcat(Toy_Interpreter* interpreter, Toy_LiteralArray* argument
return -1; return -1;
} }
static int nativeEvery(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
//no arguments
if (arguments->count != 2) {
interpreter->errorOutput("Incorrect number of arguments to _every\n");
return -1;
}
//get the args
Toy_Literal fnLiteral = Toy_popLiteralArray(arguments);
Toy_Literal selfLiteral = Toy_popLiteralArray(arguments);
//parse to value if needed
Toy_Literal selfLiteralIdn = selfLiteral;
if (TOY_IS_IDENTIFIER(selfLiteral) && Toy_parseIdentifierToValue(interpreter, &selfLiteral)) {
Toy_freeLiteral(selfLiteralIdn);
}
Toy_Literal fnLiteralIdn = fnLiteral;
if (TOY_IS_IDENTIFIER(fnLiteral) && Toy_parseIdentifierToValue(interpreter, &fnLiteral)) {
Toy_freeLiteral(fnLiteralIdn);
}
//check type
if (!( TOY_IS_ARRAY(selfLiteral) || TOY_IS_DICTIONARY(selfLiteral) ) || !( TOY_IS_FUNCTION(fnLiteral) || TOY_IS_FUNCTION_NATIVE(fnLiteral) )) {
interpreter->errorOutput("Incorrect argument type passed to _every\n");
Toy_freeLiteral(selfLiteral);
return -1;
}
//call the given function on each element, based on the compound type
if (TOY_IS_ARRAY(selfLiteral)) {
bool result = true;
//
for (int i = 0; i < TOY_AS_ARRAY(selfLiteral)->count; i++) {
Toy_Literal indexLiteral = TOY_TO_INTEGER_LITERAL(i);
Toy_LiteralArray arguments;
Toy_initLiteralArray(&arguments);
Toy_pushLiteralArray(&arguments, TOY_AS_ARRAY(selfLiteral)->literals[i]);
Toy_pushLiteralArray(&arguments, indexLiteral);
Toy_LiteralArray returns;
Toy_initLiteralArray(&returns);
Toy_callLiteralFn(interpreter, fnLiteral, &arguments, &returns);
//grab the results
Toy_Literal lit = Toy_popLiteralArray(&returns);
Toy_freeLiteralArray(&arguments);
Toy_freeLiteralArray(&returns);
Toy_freeLiteral(indexLiteral);
//if not truthy
if (!TOY_IS_TRUTHY(lit)) {
Toy_freeLiteral(lit);
result = false;
break;
}
Toy_freeLiteral(lit);
}
Toy_Literal resultLiteral = TOY_TO_BOOLEAN_LITERAL(result);
Toy_pushLiteralArray(&interpreter->stack, resultLiteral);
Toy_freeLiteral(resultLiteral);
}
if (TOY_IS_DICTIONARY(selfLiteral)) {
bool result = true;
for (int i = 0; i < TOY_AS_DICTIONARY(selfLiteral)->capacity; i++) {
//skip nulls
if (TOY_IS_NULL(TOY_AS_DICTIONARY(selfLiteral)->entries[i].key)) {
continue;
}
Toy_LiteralArray arguments;
Toy_initLiteralArray(&arguments);
Toy_pushLiteralArray(&arguments, TOY_AS_DICTIONARY(selfLiteral)->entries[i].value);
Toy_pushLiteralArray(&arguments, TOY_AS_DICTIONARY(selfLiteral)->entries[i].key);
Toy_LiteralArray returns;
Toy_initLiteralArray(&returns);
Toy_callLiteralFn(interpreter, fnLiteral, &arguments, &returns);
//grab the results
Toy_Literal lit = Toy_popLiteralArray(&returns);
Toy_freeLiteralArray(&arguments);
Toy_freeLiteralArray(&returns);
//if not truthy
if (!TOY_IS_TRUTHY(lit)) {
Toy_freeLiteral(lit);
result = false;
break;
}
Toy_freeLiteral(lit);
}
Toy_Literal resultLiteral = TOY_TO_BOOLEAN_LITERAL(result);
Toy_pushLiteralArray(&interpreter->stack, resultLiteral);
Toy_freeLiteral(resultLiteral);
}
Toy_freeLiteral(fnLiteral);
Toy_freeLiteral(selfLiteral);
return 0;
}
static int nativeForEach(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) { static int nativeForEach(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
//no arguments //no arguments
if (arguments->count != 2) { if (arguments->count != 2) {
@@ -484,6 +599,121 @@ static int nativeReduce(Toy_Interpreter* interpreter, Toy_LiteralArray* argument
return 0; return 0;
} }
static int nativeSome(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
//no arguments
if (arguments->count != 2) {
interpreter->errorOutput("Incorrect number of arguments to _some\n");
return -1;
}
//get the args
Toy_Literal fnLiteral = Toy_popLiteralArray(arguments);
Toy_Literal selfLiteral = Toy_popLiteralArray(arguments);
//parse to value if needed
Toy_Literal selfLiteralIdn = selfLiteral;
if (TOY_IS_IDENTIFIER(selfLiteral) && Toy_parseIdentifierToValue(interpreter, &selfLiteral)) {
Toy_freeLiteral(selfLiteralIdn);
}
Toy_Literal fnLiteralIdn = fnLiteral;
if (TOY_IS_IDENTIFIER(fnLiteral) && Toy_parseIdentifierToValue(interpreter, &fnLiteral)) {
Toy_freeLiteral(fnLiteralIdn);
}
//check type
if (!( TOY_IS_ARRAY(selfLiteral) || TOY_IS_DICTIONARY(selfLiteral) ) || !( TOY_IS_FUNCTION(fnLiteral) || TOY_IS_FUNCTION_NATIVE(fnLiteral) )) {
interpreter->errorOutput("Incorrect argument type passed to _some\n");
Toy_freeLiteral(selfLiteral);
return -1;
}
//call the given function on each element, based on the compound type
if (TOY_IS_ARRAY(selfLiteral)) {
bool result = false;
//
for (int i = 0; i < TOY_AS_ARRAY(selfLiteral)->count; i++) {
Toy_Literal indexLiteral = TOY_TO_INTEGER_LITERAL(i);
Toy_LiteralArray arguments;
Toy_initLiteralArray(&arguments);
Toy_pushLiteralArray(&arguments, TOY_AS_ARRAY(selfLiteral)->literals[i]);
Toy_pushLiteralArray(&arguments, indexLiteral);
Toy_LiteralArray returns;
Toy_initLiteralArray(&returns);
Toy_callLiteralFn(interpreter, fnLiteral, &arguments, &returns);
//grab the results
Toy_Literal lit = Toy_popLiteralArray(&returns);
Toy_freeLiteralArray(&arguments);
Toy_freeLiteralArray(&returns);
Toy_freeLiteral(indexLiteral);
//if not truthy
if (TOY_IS_TRUTHY(lit)) {
Toy_freeLiteral(lit);
result = true;
break;
}
Toy_freeLiteral(lit);
}
Toy_Literal resultLiteral = TOY_TO_BOOLEAN_LITERAL(result);
Toy_pushLiteralArray(&interpreter->stack, resultLiteral);
Toy_freeLiteral(resultLiteral);
}
if (TOY_IS_DICTIONARY(selfLiteral)) {
bool result = false;
for (int i = 0; i < TOY_AS_DICTIONARY(selfLiteral)->capacity; i++) {
//skip nulls
if (TOY_IS_NULL(TOY_AS_DICTIONARY(selfLiteral)->entries[i].key)) {
continue;
}
Toy_LiteralArray arguments;
Toy_initLiteralArray(&arguments);
Toy_pushLiteralArray(&arguments, TOY_AS_DICTIONARY(selfLiteral)->entries[i].value);
Toy_pushLiteralArray(&arguments, TOY_AS_DICTIONARY(selfLiteral)->entries[i].key);
Toy_LiteralArray returns;
Toy_initLiteralArray(&returns);
Toy_callLiteralFn(interpreter, fnLiteral, &arguments, &returns);
//grab the results
Toy_Literal lit = Toy_popLiteralArray(&returns);
Toy_freeLiteralArray(&arguments);
Toy_freeLiteralArray(&returns);
//if not truthy
if (TOY_IS_TRUTHY(lit)) {
Toy_freeLiteral(lit);
result = true;
break;
}
Toy_freeLiteral(lit);
}
Toy_Literal resultLiteral = TOY_TO_BOOLEAN_LITERAL(result);
Toy_pushLiteralArray(&interpreter->stack, resultLiteral);
Toy_freeLiteral(resultLiteral);
}
Toy_freeLiteral(fnLiteral);
Toy_freeLiteral(selfLiteral);
return 0;
}
static int nativeToLower(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) { static int nativeToLower(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
//no arguments //no arguments
if (arguments->count != 1) { if (arguments->count != 1) {
@@ -930,7 +1160,7 @@ int Toy_hookCompound(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_L
{"_concat", nativeConcat}, //array, dictionary, string {"_concat", nativeConcat}, //array, dictionary, string
// {"_containsKey", native}, //dictionary // {"_containsKey", native}, //dictionary
// {"_containsValue", native}, //array, dictionary // {"_containsValue", native}, //array, dictionary
// {"_every", native}, //array, dictionary, string {"_every", nativeEvery}, //array, dictionary
// {"_filter", native}, //array, dictionary // {"_filter", native}, //array, dictionary
{"_forEach", nativeForEach}, //array, dictionary {"_forEach", nativeForEach}, //array, dictionary
{"_getKeys", nativeGetKeys}, //dictionary {"_getKeys", nativeGetKeys}, //dictionary
@@ -941,7 +1171,7 @@ int Toy_hookCompound(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_L
{"_reduce", nativeReduce}, //array, dictionary {"_reduce", nativeReduce}, //array, dictionary
// {"_remove", native}, //array, dictionary // {"_remove", native}, //array, dictionary
// {"_replace", native}, //string // {"_replace", native}, //string
// {"_some", native}, //array, dictionary, string {"_some", nativeSome}, //array, dictionary
// {"_sort", native}, //array // {"_sort", native}, //array
{"_toLower", nativeToLower}, //string {"_toLower", nativeToLower}, //string
{"_toString", nativeToString}, //array, dictionary {"_toString", nativeToString}, //array, dictionary

15
scripts/small.toy
View File

@@ -1,2 +1,15 @@
/* import compound;
var a = [false, false, false];
var d = ["one": false, "two": false];
fn f(k, v) { return v; }
print a.some(f);
print d.some(f);
a[1] = true;
d["two"] = true;
print a.some(f);
print d.some(f);

4
source/toy_literal.c
View File

@@ -72,7 +72,7 @@ void Toy_freeLiteral(Toy_Literal literal) {
bool Toy_private_isTruthy(Toy_Literal x) { bool Toy_private_isTruthy(Toy_Literal x) {
if (TOY_IS_NULL(x)) { if (TOY_IS_NULL(x)) {
fprintf(stderr, TOY_CC_ERROR "TOY_CC_ERROR: Null is neither true nor false\n" TOY_CC_RESET); fprintf(stderr, TOY_CC_ERROR "Null is neither true nor false\n" TOY_CC_RESET);
return false; return false;
} }
@@ -228,7 +228,7 @@ Toy_Literal Toy_copyLiteral(Toy_Literal original) {
return original; return original;
default: default:
fprintf(stderr, TOY_CC_ERROR "TOY_CC_ERROR: Can't copy that literal type: %d\n" TOY_CC_RESET, original.type); fprintf(stderr, TOY_CC_ERROR "Can't copy that literal type: %d\n" TOY_CC_RESET, original.type);
return TOY_TO_NULL_LITERAL; return TOY_TO_NULL_LITERAL;
} }
} }

56
test/scripts/lib/compound.toy
View File

@@ -45,6 +45,34 @@ import compound;
} }
} }
//test every
{
var a = [1, 2, 3];
var d = ["one": 1, "two": 2];
var counter = 0;
fn f(k, v) {
counter++;
return v;
}
assert a.every(f) == true, "array.every() == true failed";
assert d.every(f) == true, "dictionary.every() == true failed";
assert counter == 5, "Unexpected number of calls for _every() == true";
counter = 0;
a[1] = false;
d["two"] = false;
assert a.every(f) == false, "array.every() == false failed";
assert d.every(f) == false, "dictionary.every() == false failed";
assert counter == 4, "Unexpected number of calls for _every() == false";
}
//test forEach //test forEach
{ {
var counter = 0; var counter = 0;
@@ -65,6 +93,7 @@ import compound;
assert counter == 4, "forEach ran an unusual number of times"; assert counter == 4, "forEach ran an unusual number of times";
} }
//test getKeys //test getKeys
{ {
var d = ["foo": 1, "bar": 2]; var d = ["foo": 1, "bar": 2];
@@ -127,6 +156,33 @@ import compound;
} }
//test some
{
var a = [false, false, false];
var d = ["one": false, "two": false];
var counter = 0;
fn f(k, v) {
counter++;
return v;
}
assert a.some(f) == false, "array.some() == false failed";
assert d.some(f) == false, "dictionary.some() == false failed";
assert counter == 5, "Unexpected number of calls for _some() == false";
counter = 0;
a[1] = true;
d["two"] = true;
assert a.some(f) == true, "array.some() == true failed";
assert d.some(f) == true, "dictionary.some() == true failed";
assert counter == 4, "Unexpected number of calls for _some() == true";
}
//test toLower //test toLower
{ {
assert "Hello World".toLower() == "hello world", "_toLower() failed"; assert "Hello World".toLower() == "hello world", "_toLower() failed";