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The value is displaying correctly, but not the type

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This commit is contained in:
Kayne Ruse
2022-08-12 17:27:57 +01:00
parent 7424a681d6
commit 55aa6eb273
8 changed files with 157 additions and 30 deletions
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2
scripts/small.toy
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@@ -1 +1 @@
var a : [string const, int] = 42; var name : [string const, int] = ["foo" : 42];

67
source/compiler.c
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@@ -88,7 +88,7 @@ static int writeNodeCompoundToCache(Compiler* compiler, Node* node) {
} }
//push the store to the cache, with instructions about how pack it //push the store to the cache, with instructions about how pack it
index = pushLiteralArray(&compiler->literalCache, TO_DICTIONARY_LITERAL(store)); index = pushLiteralArray(&compiler->literalCache, TO_DICTIONARY_LITERAL(store)); //pushed as an array, so below can recognize it
} }
else if (node->compound.literalType == LITERAL_ARRAY) { else if (node->compound.literalType == LITERAL_ARRAY) {
//ensure each literal value is in the cache, individually //ensure each literal value is in the cache, individually
@@ -128,7 +128,7 @@ static int writeNodeCompoundToCache(Compiler* compiler, Node* node) {
return index; return index;
} }
static int writeLiteralTypeToCache(Compiler* compiler, Literal literal) { static int writeLiteralTypeToCache(LiteralArray* parent, Literal literal) {
int index = -1; int index = -1;
//for now, stored as an array //for now, stored as an array
@@ -136,9 +136,9 @@ static int writeLiteralTypeToCache(Compiler* compiler, Literal literal) {
initLiteralArray(store); initLiteralArray(store);
//save the mask to the store //save the mask to the store
int maskIndex = findLiteralIndex(store, TO_INTEGER_LITERAL(AS_TYPE(literal).mask)); int maskIndex = findLiteralIndex(parent, TO_INTEGER_LITERAL(AS_TYPE(literal).mask));
if (maskIndex < 0) { if (maskIndex < 0) {
maskIndex = pushLiteralArray(store, TO_INTEGER_LITERAL(AS_TYPE(literal).mask)); maskIndex = pushLiteralArray(parent, TO_INTEGER_LITERAL(AS_TYPE(literal).mask));
} }
pushLiteralArray(store, TO_INTEGER_LITERAL(maskIndex)); pushLiteralArray(store, TO_INTEGER_LITERAL(maskIndex));
@@ -146,13 +146,13 @@ static int writeLiteralTypeToCache(Compiler* compiler, Literal literal) {
//if it's a compound type, recurse //if it's a compound type, recurse
if (AS_TYPE(literal).mask & (MASK_ARRAY|MASK_DICTIONARY)) { if (AS_TYPE(literal).mask & (MASK_ARRAY|MASK_DICTIONARY)) {
for (int i = 0; i < AS_TYPE(literal).count; i++) { for (int i = 0; i < AS_TYPE(literal).count; i++) {
int subIndex = writeLiteralTypeToCache(compiler, ((Literal*)(AS_TYPE(literal).subtypes))[i]); int subIndex = writeLiteralTypeToCache(parent, ((Literal*)(AS_TYPE(literal).subtypes))[i]);
pushLiteralArray(store, TO_INTEGER_LITERAL(subIndex)); pushLiteralArray(store, TO_INTEGER_LITERAL(subIndex));
} }
} }
//push the store to the compiler //push the store to the parent
index = pushLiteralArray(&compiler->literalCache, TO_ARRAY_LITERAL(store)); index = pushLiteralArray(parent, TO_ARRAY_LITERAL(store));
return index; return index;
} }
@@ -250,8 +250,8 @@ void writeCompiler(Compiler* compiler, Node* node) {
fprintf(stderr, "[Internal] NODE_PAIR encountered in writeCompiler()"); fprintf(stderr, "[Internal] NODE_PAIR encountered in writeCompiler()");
break; break;
case NODE_VAR_TYPES: { case NODE_VAR_TYPES: { //TODO: the "type" keyword
int index = writeLiteralTypeToCache(compiler, node->varTypes.typeLiteral); int index = writeLiteralTypeToCache(&compiler->literalCache, node->varTypes.typeLiteral);
//embed the info into the bytecode //embed the info into the bytecode
if (index >= 256) { if (index >= 256) {
@@ -269,9 +269,39 @@ void writeCompiler(Compiler* compiler, Node* node) {
} }
break; break;
// case NODE_VAR_DECL: case NODE_VAR_DECL: {
// //TODO: OP_VAR_DECL + OP_VAR_ASSIGN //first, embed the expression (leaves it on the stack)
// break; writeCompiler(compiler, node->varDecl.expression);
//write each piece of the declaration to the bytecode
int identifierIndex = findLiteralIndex(&compiler->literalCache, node->varDecl.identifier);
if (identifierIndex < 0) {
identifierIndex = pushLiteralArray(&compiler->literalCache, node->varDecl.identifier);
}
int typeIndex = writeLiteralTypeToCache(&compiler->literalCache, node->varDecl.typeLiteral);
//embed the info into the bytecode
if (identifierIndex >= 256 || typeIndex >= 256) {
//push a "long" declaration
compiler->bytecode[compiler->count++] = OP_VAR_DECL_LONG; //1 byte
*((unsigned short*)(compiler->bytecode + compiler->count)) = (unsigned short)identifierIndex; //2 bytes
compiler->count += sizeof(unsigned short);
*((unsigned short*)(compiler->bytecode + compiler->count)) = (unsigned short)typeIndex; //2 bytes
compiler->count += sizeof(unsigned short);
}
else {
//push a declaration
compiler->bytecode[compiler->count++] = OP_VAR_DECL; //1 byte
compiler->bytecode[compiler->count++] = (unsigned char)identifierIndex; //1 byte
compiler->bytecode[compiler->count++] = (unsigned char)typeIndex; //1 byte
}
}
break;
//TODO: OP_VAR_ASSIGN
} }
} }
@@ -428,6 +458,19 @@ unsigned char* collateCompiler(Compiler* compiler, int* size) {
} }
break; break;
case LITERAL_IDENTIFIER: {
emitByte(&collation, &capacity, &count, LITERAL_IDENTIFIER);
Literal identifier = compiler->literalCache.literals[i];
for (int c = 0; c < STRLEN_I(identifier); c++) {
emitByte(&collation, &capacity, &count, AS_IDENTIFIER(identifier)[c]);
}
emitByte(&collation, &capacity, &count, '\0'); //terminate the string
}
break;
case LITERAL_TYPE: { case LITERAL_TYPE: {
emitByte(&collation, &capacity, &count, LITERAL_TYPE); emitByte(&collation, &capacity, &count, LITERAL_TYPE);

74
source/interpreter.c
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@@ -250,6 +250,34 @@ static bool execArithmetic(Interpreter* interpreter, Opcode opcode) {
return false; return false;
} }
static bool execVarDecl(Interpreter* interpreter, bool lng) {
//read the index in the cache
int identifierIndex = 0;
int typeIndex = 0;
if (lng) {
identifierIndex = (int)readShort(interpreter->bytecode, &interpreter->count);
typeIndex = (int)readShort(interpreter->bytecode, &interpreter->count);
}
else {
identifierIndex = (int)readByte(interpreter->bytecode, &interpreter->count);
typeIndex = (int)readByte(interpreter->bytecode, &interpreter->count);
}
Literal identifier = interpreter->literalCache.literals[identifierIndex];
Literal type = interpreter->literalCache.literals[typeIndex];
if (!declareScopeVariable(interpreter->scope, identifier, type)) {
return false;
}
if (!setScopeVariable(interpreter->scope, identifier, popLiteralArray(&interpreter->stack) )) {
return false;
}
return true;
}
//the heart of toy //the heart of toy
static void execInterpreter(Interpreter* interpreter) { static void execInterpreter(Interpreter* interpreter) {
unsigned char opcode = readByte(interpreter->bytecode, &interpreter->count); unsigned char opcode = readByte(interpreter->bytecode, &interpreter->count);
@@ -307,6 +335,15 @@ static void execInterpreter(Interpreter* interpreter) {
interpreter->scope = popScope(interpreter->scope); interpreter->scope = popScope(interpreter->scope);
break; break;
//TODO: type declarations
case OP_VAR_DECL:
case OP_VAR_DECL_LONG:
if (!execVarDecl(interpreter, opcode == OP_LITERAL_LONG)) {
return;
}
break;
default: default:
printf("Unknown opcode found %d, terminating\n", opcode); printf("Unknown opcode found %d, terminating\n", opcode);
printLiteralArray(&interpreter->stack, "\n"); printLiteralArray(&interpreter->stack, "\n");
@@ -449,6 +486,43 @@ void runInterpreter(Interpreter* interpreter) {
pushLiteralArray(&interpreter->literalCache, TO_DICTIONARY_LITERAL(dictionary)); pushLiteralArray(&interpreter->literalCache, TO_DICTIONARY_LITERAL(dictionary));
} }
break; break;
//TODO: functions
case LITERAL_IDENTIFIER: {
char* str = readString(interpreter->bytecode, &interpreter->count);
Literal identifier = TO_IDENTIFIER_LITERAL(str);
pushLiteralArray(&interpreter->literalCache, identifier);
if (command.verbose) {
printf("(identifier %s)\n", AS_IDENTIFIER(identifier));
}
}
break;
case LITERAL_TYPE: {
Literal typeLiteral;
// read the mask
unsigned char mask = readByte(interpreter->bytecode, &interpreter->count);
typeLiteral = TO_TYPE_LITERAL(mask);
AS_TYPE(typeLiteral).count = readShort(interpreter->bytecode, &interpreter->count);
//if it's got subtypes, grab them from the existing cache
if (AS_TYPE(typeLiteral).count > 0) {
AS_TYPE(typeLiteral).subtypes = ALLOCATE(Literal, AS_TYPE(typeLiteral).count);
for (int i = 0; i < AS_TYPE(typeLiteral).count; i++) {
//read each index
int index = readShort(interpreter->bytecode, &interpreter->count);
((Literal*)(AS_TYPE(typeLiteral).subtypes))[i] = interpreter->literalCache.literals[index];
}
}
}
break;
} }
} }

3
source/opcodes.h
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@@ -28,7 +28,8 @@ typedef enum Opcode {
OP_TYPE_DECL, //declare a type to be used (as a literal) OP_TYPE_DECL, //declare a type to be used (as a literal)
OP_TYPE_DECL_LONG, //declare a type to be used (as a long literal) OP_TYPE_DECL_LONG, //declare a type to be used (as a long literal)
// OP_VAR_DECL, //stack: literal name, literal type (referenced by array index) OP_VAR_DECL,
OP_VAR_DECL_LONG,
// OP_VAR_ASSIGN, //stack: literal name, literal value // OP_VAR_ASSIGN, //stack: literal name, literal value
//meta //meta

21
source/parser.c
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@@ -801,25 +801,18 @@ static Literal readTypeToLiteral(Parser* parser) {
return literal; return literal;
} }
static void readVarType(Parser* parser, Node** nodeHandle) {
//TODO: custom types with the "type" keyword
//get the type literal
Literal type = readTypeToLiteral(parser);
//generate the node
emitNodeVarTypes(nodeHandle, type);
}
static void varDecl(Parser* parser, Node** nodeHandle) { static void varDecl(Parser* parser, Node** nodeHandle) {
//read the identifier //read the identifier
consume(parser, TOKEN_IDENTIFIER, "Expected identifier after var keyword"); consume(parser, TOKEN_IDENTIFIER, "Expected identifier after var keyword");
Token identifierToken = parser->previous; Token identifierToken = parser->previous;
Literal identifier = TO_IDENTIFIER_LITERAL(identifierToken.lexeme);
identifier.as.identifier.length = identifierToken.length; //BUGFIX
//read the type, if present //read the type, if present
Node* typeNode = NULL; Literal typeLiteral;
if (match(parser, TOKEN_COLON)) { if (match(parser, TOKEN_COLON)) {
readVarType(parser, &typeNode); typeLiteral = readTypeToLiteral(parser);
} }
//variable definition is an expression //variable definition is an expression
@@ -830,8 +823,8 @@ static void varDecl(Parser* parser, Node** nodeHandle) {
//TODO: static type checking? //TODO: static type checking?
//finally //declare it
// emitNodeVarDecl(nodeHandle, TO_IDENTIFIER_LITERAL(identifierToken.lexeme), typeNode, expressionNode); emitNodeVarDecl(nodeHandle, identifier, typeLiteral, expressionNode);
consume(parser, TOKEN_SEMICOLON, "Expected ';' at end of var declaration"); consume(parser, TOKEN_SEMICOLON, "Expected ';' at end of var declaration");
} }

13
source/repl_main.c
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@@ -105,6 +105,19 @@ void runBinary(unsigned char* tb, size_t size) {
Interpreter interpreter; Interpreter interpreter;
initInterpreter(&interpreter, tb, size); initInterpreter(&interpreter, tb, size);
runInterpreter(&interpreter); runInterpreter(&interpreter);
//DEBUG
Literal lit;
printf("DEBUG> ");
if (getScopeVariable(interpreter.scope, TO_IDENTIFIER_LITERAL("name"), &lit)) {
printLiteral(lit);
}
else {
printf("Failed");
}
printf("\n");
freeInterpreter(&interpreter); freeInterpreter(&interpreter);
} }

5
source/scope.c
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@@ -44,7 +44,10 @@ Scope* popScope(Scope* scope) {
} }
//returns false if error //returns false if error
bool declareScopeVariable(Scope* scope, Literal key) { bool declareScopeVariable(Scope* scope, Literal key, Literal type) {
//store the type, for later checking on assignment
//TODO
//don't redefine a variable within this scope //don't redefine a variable within this scope
if (existsLiteralDictionary(&scope->variables, key)) { if (existsLiteralDictionary(&scope->variables, key)) {
return false; return false;

2
source/scope.h
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@@ -12,7 +12,7 @@ Scope* pushScope(Scope* scope);
Scope* popScope(Scope* scope); Scope* popScope(Scope* scope);
//returns false if error //returns false if error
bool declareScopeVariable(Scope* scope, Literal key); bool declareScopeVariable(Scope* scope, Literal key, Literal type);
//return false if undefined //return false if undefined
bool setScopeVariable(Scope* scope, Literal key, Literal value); bool setScopeVariable(Scope* scope, Literal key, Literal value);