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Library rename, added HAL, added open function

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Add00
2023-08-04 23:13:43 -04:00
parent 36b4a494ae
commit 43b58eb421
12 changed files with 407 additions and 26 deletions
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88
repl/hal_file.c Normal file
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@@ -0,0 +1,88 @@
#include "hal_file.h"
#include <stdlib.h>
#include <stdio.h>
typedef struct hal_file_type {
FILE* fp;
} hal_file;
// Initialization logic, if needed
hal_file_code setup() {
return HAL_SUCCESS;
}
hal_file_code open(hal_file** file, const char* filename, const char* mode) {
if (!file || !filename || !mode) {
return HAL_ERROR_INPUT;
}
*file = (hal_file*)malloc(sizeof(hal_file));
if (!(*file)) {
return HAL_ERROR_ALLOC;
}
(*file)->fp = fopen(filename, mode);
if (!(*file)->fp) {
free(*file);
return HAL_ERROR_OPEN;
}
return HAL_SUCCESS;
}
hal_file_code read(hal_file* file, char* buffer, const int size) {
if (!file || !file->fp || !buffer || size <= 0) {
return HAL_ERROR_INPUT;
}
if (fgets(buffer, size, file->fp) == NULL) {
return HAL_ERROR_READ;
}
return HAL_SUCCESS;
}
hal_file_code write(hal_file* file, const char* message) {
if (!file || !file->fp || !message) {
return HAL_ERROR_INPUT;
}
if (fputs(message, file->fp) == EOF) {
return HAL_ERROR_WRITE;
}
return HAL_SUCCESS;
}
hal_file_code close(hal_file* file) {
if (!file || !file->fp) {
return HAL_ERROR_INPUT;
}
if (fclose(file->fp) != 0) {
return HAL_ERROR_CLOSE;
}
free(file);
return HAL_SUCCESS;
}
// deletion logic, if needed
hal_file_code teardown() {
return HAL_SUCCESS;
}
// Expose into global variable
hal_file_operations hal_file_manager = {
.setup = setup,
.open = open,
.read = read,
.write = write,
.close = close,
.teardown = teardown
};
const int HAL_MAX_FILENAME_SIZE = FILENAME_MAX;
const int HAL_MAX_FILES_OPEN = FOPEN_MAX;
const int HAL_EOF = EOF;

63
repl/hal_file.h Normal file
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@@ -0,0 +1,63 @@
#pragma once
// Enumeration of all file-related error codes
typedef enum hal_file_code {
HAL_SUCCESS, // Operation was successful
HAL_ERROR_INIT, // Error during initialization
HAL_ERROR_ALLOC, // Memory allocation error
HAL_ERROR_OPEN, // Error while opening a file
HAL_ERROR_INPUT, // Invalid input parameter(s)
HAL_ERROR_READ, // Error while reading from a file
HAL_ERROR_WRITE, // Error while writing to a file
HAL_ERROR_CLOSE, // Error while closing a file
HAL_ERROR_TEARDOWN, // Error during teardown
HAL_ERROR_MAX, // Maximum error code value (used for range checking)
} hal_file_code;
// Forward declaration of the implementation defined file structure
typedef struct hal_file_type hal_file;
// Structure for different file operation functions
typedef struct hal_file_operations {
// Function: setup
// Initialize the file handling system.
// Returns: HAL_SUCCESS on successful initialization, or appropriate error code on failure.
hal_file_code (*setup)();
// Function: open
// Open a file with the specified filename and mode.
// Returns: HAL_SUCCESS on successful read, or appropriate error code on failure.
hal_file_code (*open)(hal_file** file, const char* filename, const char* mode);
// Function: read
// Read data from the file into the provided buffer.
// Returns: HAL_SUCCESS on successful read, or appropriate error code on failure.
hal_file_code (*read)(hal_file* file, char* buffer, const int size);
// Function: write
// Write the provided message to the file.
// Returns: HAL_SUCCESS on successful write, or appropriate error code on failure.
hal_file_code (*write)(hal_file* file, const char* message);
// Function: close
// Close the file and release associated resources.
// Returns: HAL_SUCCESS on successful close, or appropriate error code on failure.
hal_file_code (*close)(hal_file* file);
// Function: teardown
// Perform necessary cleanup and teardown operations for the file handling system.
// Returns: HAL_SUCCESS on successful teardown, or appropriate error code on failure.
hal_file_code (*teardown)();
} hal_file_operations;
// Global variable to access file operations
extern hal_file_operations hal_file_manager;
// Maximum size of a filename supported by implementation
extern const int HAL_MAX_FILENAME_SIZE;
// Maximum number of files that can be open simultaneously by implementation
extern const int HAL_MAX_FILES_OPEN;
// End-of-File (EOF) indicator value defined by implementation
extern const int HAL_EOF;

224
repl/lib_fileio.c Normal file
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@@ -0,0 +1,224 @@
#include "lib_fileio.h"
#include "toy_memory.h"
#include "hal_file.h"
typedef struct Toy_File
{
hal_file* fp;
int error;
int size;
} Toy_File;
static int nativeOpen(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
if (arguments->count < 1 || arguments->count > 2) {
interpreter->errorOutput("Incorrect number of arguments to open\n");
return -1;
}
Toy_Literal modeLiteral = arguments->count == 2? Toy_popLiteralArray(arguments) : TOY_TO_STRING_LITERAL(Toy_createRefString("r"));
Toy_Literal filenameLiteral = Toy_popLiteralArray(arguments);
// parse the filename (if it's an identifier)
Toy_Literal filenameLiteralIdn = filenameLiteral;
if (TOY_IS_IDENTIFIER(filenameLiteral) && Toy_parseIdentifierToValue(interpreter, &filenameLiteral)) {
Toy_freeLiteral(filenameLiteralIdn);
}
// check the filename type
if (!TOY_IS_STRING(filenameLiteral)) {
interpreter->errorOutput("open(string, string) incorrect type for the first parameter expected: string\n");
Toy_freeLiteral(filenameLiteral);
}
// parse the mode (if it's an identifier)
Toy_Literal modeLiteralIdn = modeLiteral;
if (TOY_IS_IDENTIFIER(modeLiteral) && Toy_parseIdentifierToValue(interpreter, &modeLiteral)) {
Toy_freeLiteral(modeLiteralIdn);
}
// check the mode type
if (!TOY_IS_STRING(modeLiteral)) {
interpreter->errorOutput("open(string, string) incorrect type for the second parameter expected: string\n");
Toy_freeLiteral(modeLiteral);
}
const char* filename = Toy_toCString(TOY_AS_STRING(filenameLiteral));
const char* mode = Toy_toCString(TOY_AS_STRING(modeLiteral));
static int tag = 0;
bool error = false;
hal_file* fp = NULL;
// attempt to open file
hal_file_code code = hal_file_manager.open(&fp, filename, mode);
if (code != HAL_SUCCESS) {
error = true;
}
// set size
int size = 0;
// if (!error) {
// fseek(fp, 0, SEEK_END);
// // pervent integer overflow as ftell returns a long
// size = ftell(fp) > INT_MAX? INT_MAX : ftell(fp);
// fseek(fp, 0, SEEK_SET);
// }
// result
Toy_LiteralDictionary* result = TOY_ALLOCATE(Toy_LiteralDictionary, 1);
Toy_initLiteralDictionary(result);
Toy_Literal fileKeyLiteral = TOY_TO_STRING_LITERAL(Toy_createRefString("_file"));
Toy_Literal fileLiteral = TOY_TO_OPAQUE_LITERAL(fp, tag);
Toy_Literal errorKeyLiteral = TOY_TO_STRING_LITERAL(Toy_createRefString("error"));
Toy_Literal errorLiteral = TOY_TO_BOOLEAN_LITERAL(error);
Toy_Literal sizeKeyLiteral = TOY_TO_STRING_LITERAL(Toy_createRefString("size"));
Toy_Literal sizeLiteral = TOY_TO_INTEGER_LITERAL(size);
Toy_setLiteralDictionary(result, fileKeyLiteral, fileLiteral);
Toy_setLiteralDictionary(result, errorKeyLiteral, errorLiteral);
Toy_setLiteralDictionary(result, sizeKeyLiteral, sizeLiteral);
Toy_Literal name = TOY_TO_STRING_LITERAL(Toy_createRefString("File"));
Toy_Literal resultLiteral = TOY_TO_DICTIONARY_LITERAL(result);
Toy_Literal type = TOY_TO_TYPE_LITERAL(TOY_LITERAL_DICTIONARY, true);
Toy_Literal stringType = TOY_TO_TYPE_LITERAL(TOY_LITERAL_STRING, true);
Toy_Literal anyType = TOY_TO_TYPE_LITERAL(TOY_LITERAL_ANY, true);
TOY_TYPE_PUSH_SUBTYPE(&type, stringType);
TOY_TYPE_PUSH_SUBTYPE(&type, anyType);
Toy_pushLiteralArray(&interpreter->stack, resultLiteral);
// cleanup
Toy_freeLiteral(type);
Toy_freeLiteral(resultLiteral);
Toy_freeLiteral(filenameLiteral);
Toy_freeLiteral(modeLiteral);
tag++;
return 1;
}
static int nativeClose(Toy_Interpreter* interpreter, Toy_LiteralArray* arguments) {
// if (arguments->count != 1) {
// interpreter->errorOutput("Incorrect number of arguments to open\n");
// return -1;
// }
// Toy_Literal fileLiteral = Toy_popLiteralArray(arguments);
// // parse the file (if it's an identifier)
// Toy_Literal fileLiteralIdn = fileLiteral;
// if (TOY_IS_IDENTIFIER(fileLiteral) && Toy_parseIdentifierToValue(interpreter, &fileLiteral)) {
// Toy_freeLiteral(fileLiteralIdn);
// }
// // check the file type
// if (!TOY_IS_STRING(fileLiteral)) {
// interpreter->errorOutput("close(File) incorrect type for the first parameter expected: File\n");
// Toy_freeLiteral(fileLiteral);
// }
// FILE* fp = (FILE*)TOY_AS_OPAQUE(fileLiteral);
// Toy_freeLiteral(fileLiteral);
return 1;
}
//call the hook
typedef struct Natives {
char* name;
Toy_NativeFn fn;
} Natives;
typedef struct Variable {
Toy_Literal key;
Toy_Literal identifier;
Toy_Literal literal;
} Variable;
// Helper function create a variable
void createToyVariable(Variable* variable, char* key, int literal) {
variable->key = TOY_TO_STRING_LITERAL(Toy_createRefString(key));
variable->identifier = TOY_TO_IDENTIFIER_LITERAL(Toy_createRefString(key));
variable->literal = TOY_TO_INTEGER_LITERAL(literal);
}
// Helper function to clean up variables
void deleteToyVariables(Variable variables[], int size) {
for (int i = 0; i < size; i++) {
Toy_freeLiteral(variables[i].key);
Toy_freeLiteral(variables[i].identifier);
Toy_freeLiteral(variables[i].literal);
}
}
bool scopeConflict(Toy_Interpreter* interpreter, Variable variables[], int size) {
for (int i = 0; i < size; i++) {
if (Toy_isDeclaredScopeVariable(interpreter->scope, variables[i].literal)) {
interpreter->errorOutput("Can't override an existing variable\n");
deleteToyVariables(variables, size);
return true;
}
}
return false;
}
void exposeVariablesToScope(Toy_Interpreter* interpreter, Variable variables[], int size) {
Toy_Literal intType = TOY_TO_TYPE_LITERAL(TOY_LITERAL_INTEGER, true);
for (int i = 0; i < size; i++) {
Toy_declareScopeVariable(interpreter->scope, variables[i].identifier, intType);
Toy_setScopeVariable(interpreter->scope, variables[i].identifier, variables[i].literal, false);
}
Toy_freeLiteral(intType);
}
int Toy_hookFileIO(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_Literal alias) {
//build the natives list
Natives natives[] = {
// Access
{"open", nativeOpen},
{"close", nativeClose},
{NULL, NULL}
};
//default
for (int i = 0; natives[i].name; i++) {
Toy_injectNativeFn(interpreter, natives[i].name, natives[i].fn);
}
const int VARIABLES_SIZE = 3;
Variable variables[VARIABLES_SIZE];
createToyVariable(&variables[0], "MAX_FILENAME_SIZE", HAL_MAX_FILENAME_SIZE);
createToyVariable(&variables[1], "MAX_FILES_OPEN", HAL_MAX_FILES_OPEN);
createToyVariable(&variables[2], "END_OF_FILE", HAL_EOF);
if (scopeConflict(interpreter, variables, VARIABLES_SIZE)) {
return -1;
}
exposeVariablesToScope(interpreter, variables, VARIABLES_SIZE);
deleteToyVariables(variables, VARIABLES_SIZE);
return 0;
}

5
repl/lib_fileio.h Normal file
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@@ -0,0 +1,5 @@
#pragma once
#include "toy_interpreter.h"
int Toy_hookFileIO(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_Literal alias);

14
repl/lib_io.c
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@@ -1,14 +0,0 @@
#include "lib_io.h"
#include <stdio.h>
//call the hook
typedef struct Natives {
char* name;
Toy_NativeFn fn;
} Natives;
int Toy_hookIO(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_Literal alias) {
return 1;
}

5
repl/lib_io.h
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@@ -1,5 +0,0 @@
#pragma once
#include "toy_interpreter.h"
int Toy_hookIO(Toy_Interpreter* interpreter, Toy_Literal identifier, Toy_Literal alias);

4
repl/repl_main.c
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@@ -4,8 +4,8 @@
#include "lib_standard.h"
#include "lib_random.h"
#include "lib_runner.h"
#include "lib_fileio.h"
#include "lib_math.h"
#include "lib_io.h"
#include "toy_console_colors.h"
@@ -32,8 +32,8 @@ void repl(const char* initialInput) {
Toy_injectNativeHook(&interpreter, "standard", Toy_hookStandard);
Toy_injectNativeHook(&interpreter, "random", Toy_hookRandom);
Toy_injectNativeHook(&interpreter, "runner", Toy_hookRunner);
Toy_injectNativeHook(&interpreter, "fileio", Toy_hookFileIO);
Toy_injectNativeHook(&interpreter, "math", Toy_hookMath);
Toy_injectNativeHook(&interpreter, "io", Toy_hookIO);
for(;;) {
if (!initialInput) {

4
repl/repl_tools.c
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@@ -3,8 +3,8 @@
#include "lib_standard.h"
#include "lib_random.h"
#include "lib_runner.h"
#include "lib_fileio.h"
#include "lib_math.h"
#include "lib_io.h"
#include "toy_console_colors.h"
@@ -117,8 +117,8 @@ void Toy_runBinary(const unsigned char* tb, size_t size) {
Toy_injectNativeHook(&interpreter, "standard", Toy_hookStandard);
Toy_injectNativeHook(&interpreter, "random", Toy_hookRandom);
Toy_injectNativeHook(&interpreter, "runner", Toy_hookRunner);
Toy_injectNativeHook(&interpreter, "fileio", Toy_hookFileIO);
Toy_injectNativeHook(&interpreter, "math", Toy_hookMath);
Toy_injectNativeHook(&interpreter, "io", Toy_hookIO);
Toy_runInterpreter(&interpreter, tb, (int)size);
Toy_freeInterpreter(&interpreter);

20
test/scripts/lib/fileio.toy Normal file
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@@ -0,0 +1,20 @@
import fileio;
// test constants
{
// print MAX_FILENAME_SIZE;
// print MAX_FILES_OPEN;
// print END_OF_FILE;
assert END_OF_FILE < 0, "END_OF_FILE failed";
}
// test open
{
var file = open("doesNotExist.txt", "r");
assert file["error"] == true, "error failed";
assert file["size"] == 0, "size failed";
// close(file);
}

1
test/scripts/lib/fileio.txt Normal file
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@@ -0,0 +1 @@
Hello, World!

1
test/scripts/lib/io.toy
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@@ -1 +0,0 @@
print "Nothing is here";

4
test/test_libraries.c
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@@ -18,8 +18,8 @@
#include "../repl/lib_standard.h"
#include "../repl/lib_random.h"
#include "../repl/lib_runner.h"
#include "../repl/lib_fileio.h"
#include "../repl/lib_math.h"
#include "../repl/lib_io.h"
//supress the print output
static void noPrintFn(const char* output) {
@@ -78,8 +78,8 @@ int main() {
{"standard.toy", "standard", Toy_hookStandard},
{"runner.toy", "runner", Toy_hookRunner},
{"random.toy", "random", Toy_hookRandom},
{"fileio.toy", "fileio", Toy_hookFileIO},
{"math.toy", "math", Toy_hookMath},
{"io.toy", "io", Toy_hookIO},
{NULL, NULL, NULL}
};