#include "lexer.h" #include "parser.h" #include "compiler.h" #include "interpreter.h" #include "console_colors.h" #include "memory.h" #include #include #include //supress the print output static void noPrintFn(const char* output) { //NO OP } //compilation functions char* readFile(char* path, size_t* fileSize) { FILE* file = fopen(path, "rb"); if (file == NULL) { fprintf(stderr, ERROR "Could not open file \"%s\"\n" RESET, path); exit(-1); } fseek(file, 0L, SEEK_END); *fileSize = ftell(file); rewind(file); char* buffer = (char*)malloc(*fileSize + 1); if (buffer == NULL) { fprintf(stderr, ERROR "Not enough memory to read \"%s\"\n" RESET, path); exit(-1); } size_t bytesRead = fread(buffer, sizeof(char), *fileSize, file); buffer[*fileSize] = '\0'; //NOTE: fread doesn't append this if (bytesRead < *fileSize) { fprintf(stderr, ERROR "Could not read file \"%s\"\n" RESET, path); exit(-1); } fclose(file); return buffer; } unsigned char* compileString(char* source, size_t* size) { Lexer lexer; Parser parser; Compiler compiler; initLexer(&lexer, source); initParser(&parser, &lexer); initCompiler(&compiler); //run the parser until the end of the source Node* node = scanParser(&parser); while(node != NULL) { //pack up and leave if (node->type == NODE_ERROR) { printf(ERROR "error node detected\n" RESET); freeNode(node); freeCompiler(&compiler); freeParser(&parser); return NULL; } writeCompiler(&compiler, node); freeNode(node); node = scanParser(&parser); } //get the bytecode dump unsigned char* tb = collateCompiler(&compiler, (int*)(size)); //cleanup freeCompiler(&compiler); freeParser(&parser); //no lexer to clean up //finally return tb; } void runBinary(unsigned char* tb, size_t size) { Interpreter interpreter; initInterpreter(&interpreter); //NOTE: supress print output for testing setInterpreterPrint(&interpreter, noPrintFn); runInterpreter(&interpreter, tb, size); freeInterpreter(&interpreter); } void runSource(char* source) { size_t size = 0; unsigned char* tb = compileString(source, &size); if (!tb) { return; } runBinary(tb, size); } void runSourceFile(char* fname) { size_t size = 0; //not used char* source = readFile(fname, &size); runSource(source); free((void*)source); } int main() { { //test init & free Interpreter interpreter; initInterpreter(&interpreter); freeInterpreter(&interpreter); } { //source char* source = "print null;"; //test basic compilation & collation Lexer lexer; Parser parser; Compiler compiler; Interpreter interpreter; initLexer(&lexer, source); initParser(&parser, &lexer); initCompiler(&compiler); initInterpreter(&interpreter); Node* node = scanParser(&parser); //write writeCompiler(&compiler, node); //collate int size = 0; unsigned char* bytecode = collateCompiler(&compiler, &size); //NOTE: supress print output for testing setInterpreterPrint(&interpreter, noPrintFn); //run runInterpreter(&interpreter, bytecode, size); //cleanup freeNode(node); freeParser(&parser); freeCompiler(&compiler); freeInterpreter(&interpreter); } { //run each file in ../scripts/test/ int count = 15; char* filenames[] = { "arithmetic.toy", "casting.toy", "comparisons.toy", "dot-and-matrix.toy", "functions.toy", "imports-and-exports.toy", "jumps.toy", "jumps-in-functions.toy", "logicals.toy", "long-array.toy", "long-dictionary.toy", "long-literals.toy", "native-functions.toy", "panic-within-functions.toy", "types.toy" }; for (int i = 0; i < count; i++) { printf("Running %s\n", filenames[i]); char buffer[128]; snprintf(buffer, 128, "../scripts/test/%s", filenames[i]); runSourceFile(buffer); } } printf(NOTICE "All good\n" RESET); return 0; }