#include "../include/program.h" #include "../include/bytecode.h" #include "../include/command.h" #include "../include/std_gc/list.h" #ifdef DEBUG #define GC_DEBUG #endif #include #include #include #include #include #define cleanup_if_error(expr) \ { \ if(!(expr)) { \ result = TSL_PROGRAM_RESULT_ERR; \ goto cleanup; \ } \ } #define return_if_error(expr) \ { \ if(!(expr)) \ return TSL_PROGRAM_RESULT_ERR; \ } void tsl_program_init(TslProgram *self) { GC_INIT(); /* TODO: Remove this */ tsl_buffer_init(&self->function_bytecode_list); } void tsl_program_deinit(TslProgram *self) { TslBytecode *bytecode_writer = tsl_buffer_begin(&self->function_bytecode_list); TslBytecode *bytecode_writer_end = tsl_buffer_end(&self->function_bytecode_list); while(bytecode_writer != bytecode_writer_end) { tsl_bytecode_deinit(bytecode_writer); ++bytecode_writer; } tsl_buffer_deinit(&self->function_bytecode_list); } static int program_output_temp(char *data, int size, void *userdata) { (void)size; (void)userdata; fputs(data, stdout); return 1; } static TslProgramResult tsl_value_create_from_stack_value(TslProgram *self, TslStackValue *src, TslValue *dst) { tsl_value_clear(dst); switch(src->type) { case TSL_STACK_VALUE_TYPE_NUMBER: { dst->data.number = src->data.number; dst->type = TSL_TYPE_NUMBER; break; } case TSL_STACK_VALUE_TYPE_BOOL: { dst->data.boolean = src->data.boolean; dst->type = TSL_TYPE_BOOL; break; } case TSL_STACK_VALUE_TYPE_STRING: { TslString *str = GC_MALLOC_ATOMIC(sizeof(TslString)); str->data = GC_MALLOC_ATOMIC(src->data.str.size + 1); if(!str) { GC_FREE(str); GC_FREE(str->data); fprintf(stderr, "Error: out of memory\n"); return TSL_PROGRAM_RESULT_ERR; } if(!str->data) { GC_FREE(str); GC_FREE(str->data); fprintf(stderr, "Error: out of memory\n"); return TSL_PROGRAM_RESULT_ERR; } memcpy(str->data, src->data.str.data, src->data.str.size); str->data[src->data.str.size] = '\0'; str->size = src->data.str.size; dst->data.string = str; dst->type = TSL_TYPE_STRING; break; } case TSL_STACK_VALUE_TYPE_FUNCTION: { dst->data.function = src->data.integer; dst->type = TSL_TYPE_FUNCTION; break; } case TSL_STACK_VALUE_TYPE_VARIABLE: { TslValue *var; TslValue map_key; map_key.type = TSL_TYPE_STRING_VIEW; map_key.data.string_view = src->data.str; var = tsl_hash_map_get(self->variables, &map_key); if(!var) { fprintf(stderr, "Error: Trying to access a non-existing variable \"%.*s\"\n", (int)src->data.str.size, src->data.str.data); return TSL_PROGRAM_RESULT_ERR; } *dst = *var; break; } case TSL_STACK_VALUE_TYPE_LIST: { TslStackValue *items_begin = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * src->data.integer); TslStackValue *items_end = items_begin + src->data.integer; TslStackValue *item = items_end - 1; TslValue *list_item; dst->data.list = GC_MALLOC(sizeof(TslList)); return_if_error(dst->data.list); tsl_list_init(dst->data.list); return_if_error(tsl_list_set_capacity_hint(dst->data.list, sizeof(TslValue) * src->data.integer)); dst->data.list->size = sizeof(TslValue) * src->data.integer; list_item = tsl_list_end(dst->data.list) - sizeof(TslValue); while(item != items_begin - 1) { return_if_error(tsl_value_create_from_stack_value(self, item, list_item)); --list_item; --item; } dst->type = TSL_TYPE_LIST; break; } case TSL_STACK_VALUE_TYPE_MAP: { TslStackValue *items_begin = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * src->data.integer); TslStackValue *items_end = items_begin + src->data.integer; TslStackValue *item = items_end - 1; dst->data.map = GC_MALLOC(sizeof(TslHashMap)); return_if_error(dst->data.map); tsl_hash_map_init(dst->data.map); assert(src->data.integer % 2 == 0); while(item != items_begin - 1) { TslValue map_key; TslValue map_value; return_if_error(tsl_value_create_from_stack_value(self, item, &map_value)); return_if_error(tsl_value_create_from_stack_value(self, item - 1, &map_key)); return_if_error(tsl_hash_map_insert(dst->data.map, &map_key, &map_value)); item -= 2; } dst->type = TSL_TYPE_MAP; break; } case TSL_STACK_VALUE_TYPE_INDEX: { TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * 2); TslValue var; TslValue key; return_if_error(tsl_value_create_from_stack_value(self, args + 1, &key)); return_if_error(tsl_value_create_from_stack_value(self, args, &var)); if(var.type == TSL_TYPE_LIST) { TslValue *list_item; if(key.type != TSL_TYPE_NUMBER) { /* TODO: Print type as string */ fprintf(stderr, "Error: Unable to index list %s using a variable of type %d. The index has to be a number\n", "TODO", key.type); return TSL_PROGRAM_RESULT_ERR; } list_item = tsl_list_get(var.data.list, key.data.number); if(list_item) { *dst = *list_item; } else { dst->type = TSL_TYPE_NULL; } } else if(var.type == TSL_TYPE_MAP) { TslValue *map_value = tsl_hash_map_get(var.data.map, &key); if(map_value) { *dst = *map_value; } else { dst->type = TSL_TYPE_NULL; } } else { /* TODO: Print type as string */ fprintf(stderr, "Error: Unable to index data of type %d. Expected list or map\n", var.type); return TSL_PROGRAM_RESULT_ERR; } break; } case TSL_STACK_VALUE_TYPE_NULL: { dst->type = TSL_TYPE_NULL; break; } case TSL_STACK_VALUE_TYPE_COMMAND_ARG: { assert(0 && "This is a bug in the compiler. Unable to convert command arg to tsl value"); abort(); break; } } return TSL_PROGRAM_RESULT_OK; } TslProgramResult tsl_program_run(TslProgram *self) { TslProgramResult result = TSL_PROGRAM_RESULT_OK; TslBytecode *file_scope_bytecode = tsl_buffer_begin(&self->function_bytecode_list); char *instruction = tsl_buffer_begin(&file_scope_bytecode->buffer); char *instruction_end = tsl_buffer_end(&file_scope_bytecode->buffer); self->variables = GC_MALLOC_UNCOLLECTABLE(sizeof(TslHashMap)); if(!self->variables) { fprintf(stderr, "Error: Failed to allocate root object\n"); return TSL_PROGRAM_RESULT_ERR; } tsl_hash_map_init(self->variables); tsl_buffer_init(&self->stack_values); printf("###########################\n"); /* TODO: Verify if these don't cause unaligned memory access on non-x86 platforms */ while(instruction != instruction_end) { TslOpcode opcode = *(TslOpcode*)instruction; TslInstructionType1 *instruction_type1 = (TslInstructionType1*)instruction; TslInstructionType2 *instruction_type2 = (TslInstructionType2*)instruction; TslInstructionType3 *instruction_type3 = (TslInstructionType3*)instruction; TslInstructionType4 *instruction_type4 = (TslInstructionType4*)instruction; switch(opcode) { case TSL_OPCODE_LOADN: { TslStackValue stack_value; stack_value.data.number = instruction_type2->value; stack_value.type = TSL_STACK_VALUE_TYPE_NUMBER; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadn %f\n", instruction_type2->value); instruction += sizeof(TslInstructionType2); break; } case TSL_OPCODE_LOADB: { TslStackValue stack_value; stack_value.data.boolean = instruction_type3->value; stack_value.type = TSL_STACK_VALUE_TYPE_BOOL; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadb %s\n", instruction_type3->value ? "true" : "false"); instruction += sizeof(TslInstructionType3); break; } case TSL_OPCODE_LOADS: { TslStackValue stack_value; stack_value.data.str = instruction_type4->value; stack_value.type = TSL_STACK_VALUE_TYPE_STRING; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loads \"%.*s\"\n", (int)instruction_type4->value.size, instruction_type4->value.data); instruction += sizeof(TslInstructionType4); break; } case TSL_OPCODE_LOADF: { TslStackValue stack_value; stack_value.data.integer = instruction_type1->value; stack_value.type = TSL_STACK_VALUE_TYPE_FUNCTION; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadf %d\n", instruction_type1->value); instruction += sizeof(TslInstructionType1); break; } case TSL_OPCODE_LOADV: { TslStackValue stack_value; stack_value.data.str = instruction_type4->value; stack_value.type = TSL_STACK_VALUE_TYPE_VARIABLE; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadv \"%.*s\"\n", (int)instruction_type4->value.size, instruction_type4->value.data); instruction += sizeof(TslInstructionType4); break; } case TSL_OPCODE_LOADNULL: { TslStackValue stack_value; stack_value.type = TSL_STACK_VALUE_TYPE_NULL; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadnull\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_SETV: { TslStackValue *stack_value = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue)); TslValue map_key; TslValue *map_value; map_key.type = TSL_TYPE_STRING_VIEW; map_key.data.string_view = instruction_type4->value; map_value = tsl_hash_map_get_or_create(self->variables, &map_key); cleanup_if_error(map_value); cleanup_if_error(tsl_value_create_from_stack_value(self, stack_value, map_value)); printf("setv \"%.*s\"\n", (int)instruction_type4->value.size, instruction_type4->value.data); instruction += sizeof(TslInstructionType4); break; } case TSL_OPCODE_LIST: { TslStackValue stack_value; stack_value.data.integer = instruction_type1->value; stack_value.type = TSL_STACK_VALUE_TYPE_LIST; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("list %d\n", instruction_type1->value); instruction += sizeof(TslInstructionType1); break; } case TSL_OPCODE_MAP: { TslStackValue stack_value; stack_value.data.integer = instruction_type1->value; stack_value.type = TSL_STACK_VALUE_TYPE_MAP; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("map %d\n", instruction_type1->value); instruction += sizeof(TslInstructionType1); break; } case TSL_OPCODE_MINDEX: { TslStackValue stack_value; stack_value.type = TSL_STACK_VALUE_TYPE_INDEX; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("mindex\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_CALLF: { /* + 1, since the first arg is the function index and the other args are the args for the function */ TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * (1 + instruction_type1->value)); (void)args; /* TODO: Implement this */ printf("callf %d\n", instruction_type1->value); instruction += sizeof(TslInstructionType1); break; } case TSL_OPCODE_ADD: { TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * 2); (void)args; /* TODO: Implement this */ printf("add\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_SUB: { TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * 2); (void)args; /* TODO: Implement this */ printf("sub\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_MUL: { TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * 2); (void)args; /* TODO: Implement this */ printf("mul\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_DIV: { TslStackValue *args = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * 2); (void)args; /* TODO: Implement this */ printf("div\n"); instruction += sizeof(TslInstructionType5); break; } case TSL_OPCODE_LOADCA: { TslStackValue stack_value; stack_value.data.str = instruction_type4->value; stack_value.type = TSL_STACK_VALUE_TYPE_COMMAND_ARG; cleanup_if_error(tsl_buffer_append(&self->stack_values, &stack_value, sizeof(stack_value))); printf("loadca \"%.*s\"\n", (int)instruction_type4->value.size, instruction_type4->value.data); instruction += sizeof(TslInstructionType4); break; } case TSL_OPCODE_CALLC: { TslStackValue *args_begin = tsl_buffer_pop(&self->stack_values, sizeof(TslStackValue) * instruction_type1->value); TslStackValue *args_end = args_begin + instruction_type1->value; TslStackValue *arg = args_begin; char *command_args[255]; char temp_null_save[255]; size_t arg_index = 0; assert(instruction_type1->value > 0); { /* TODO: Support infinite amount of args */ assert(args_end - args_begin < 255); printf("Running command: "); while(arg != args_end) { assert(arg->type == TSL_STACK_VALUE_TYPE_COMMAND_ARG); temp_null_save[arg_index] = arg->data.str.data[arg->data.str.size]; arg->data.str.data[arg->data.str.size] = '\0'; command_args[arg_index] = arg->data.str.data; printf("%s ", command_args[arg_index]); ++arg_index; ++arg; } command_args[arg_index] = NULL; printf("\n"); } tsl_command_exec(command_args, program_output_temp, NULL); { arg = args_begin; arg_index = 0; /* TODO: Support infinite amount of args */ while(arg != args_end) { arg->data.str.data[arg->data.str.size] = temp_null_save[arg_index]; ++arg_index; ++arg; } command_args[arg_index] = NULL; } printf("callc %d\n", instruction_type1->value); instruction += sizeof(TslInstructionType1); break; } } } cleanup: assert(self->stack_values.size == 0); /* All push instructions (mostly load) haven't been handled yet. This is a bug in the compiler */ tsl_buffer_deinit(&self->stack_values); GC_FREE(self->variables); /* Free the root object, resulting in all objects in the program being free'd */ self->variables = NULL; return result; }