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#include <stdlib.h>
#include <stdio.h>
#include <inttypes.h>
#include "parser.h"
#include "ast_interpreter.h"
bool value_to_bool ( Value value ) {
if ( value . kind == VALUE_NULL )
return false;
if ( value . kind == VALUE_BOOLEAN )
return value . boolean;
return true;
}
void env_push ( ASTInterpreterState * state ) {
Environment * env = (Environment*) malloc ( sizeof (Environment) );
(*env) = (Environment) {.prev = state -> current_env, .start = NULL };
state -> current_env = env;
}
void env_pop ( ASTInterpreterState * state ) {
Environment * tmp = state -> current_env;
EnvironmentEntry * entry;
EnvironmentEntry * next = tmp -> start;
while ( (entry = next) ) {
next = entry -> next;
free ( entry );
}
state -> current_env = tmp -> prev;
free (tmp);
}
void env_put ( ASTInterpreterState * state, Str name, Value value ) {
Environment * env = state -> current_env;
EnvironmentEntry * entry;
while ( env ) {
entry = env -> start;
while ( entry ) {
if ( str_eq ( entry -> name, name ) ) {
entry -> value = value;
return;
}
entry = entry -> next;
}
env = env -> prev;
}
entry = state -> global_env . start;
while ( entry ) {
if ( str_eq ( entry -> name, name ) ) {
entry -> value = value;
return;
}
entry = entry -> next;
}
env = state -> current_env;
env = env ? env : & state -> global_env;
entry = (EnvironmentEntry*) malloc ( sizeof (EnvironmentEntry) );
(*entry) = (EnvironmentEntry) {.name = name, .value = value, .next = env -> start };
env -> start = entry;
// fprintf ( stderr, "Variable with name %.*s does not exist.\n", (int) name . len, name . str );
// exit ( 1 );
}
void env_def ( ASTInterpreterState * state, Str name, Value value ) {
Environment * env = state -> current_env ? state -> current_env : & state -> global_env;
EnvironmentEntry * parent = NULL;
EnvironmentEntry * entry = env -> start;
while ( entry ) {
if ( str_eq ( name, entry -> name ) ) {
entry -> value = value;
return;
//fprintf ( stderr, "Variable with name %.*s already exists.\n", (int) name . len, name . str );
//exit ( 1 );
}
parent = entry;
entry = entry -> next;
}
entry = (EnvironmentEntry*) malloc ( sizeof (EnvironmentEntry) );
(*entry) = (EnvironmentEntry) { .name = name, .value = value, .next = NULL };
if ( parent )
parent -> next = entry;
else
env -> start = entry;
}
Value env_get ( ASTInterpreterState * state, Str name ) {
Environment * env = state -> current_env;
EnvironmentEntry * entry;
while ( env ) {
entry = env -> start;
while ( entry ) {
if ( str_eq ( entry -> name, name ) )
return entry -> value;
entry = entry -> next;
}
env = env -> prev;
}
entry = state -> global_env . start;
while ( entry ) {
if ( str_eq ( entry -> name, name ) )
return entry -> value;
entry = entry -> next;
}
// fprintf ( stderr, "Variable with name %.*s does not exist.\n", (int) name . len, name . str );
// exit ( 1 );
// return (Value) { .kind = VALUE_NULL };
env = state -> current_env;
env = env ? env : & state -> global_env;
entry = (EnvironmentEntry*) malloc ( sizeof (EnvironmentEntry) );
(*entry) = (EnvironmentEntry) {.name = name, .value = (Value) { .kind = VALUE_NULL }, .next = env -> start };
env -> start = entry;
return entry -> value;
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}
void * heap_alloc ( Heap * heap, size_t len, size_t align ) {
size_t pos = (size_t) heap -> next;
size_t rem = pos % align;
if ( rem )
heap -> next = heap -> next + align - rem;
if ( heap -> next >= heap -> end )
return NULL;
void * ret = heap -> next;
heap -> next += len;
return ret;
}
void heap_init ( Heap * heap, size_t heap_size ) {
heap -> begin = (u8*) malloc ( heap_size );
heap -> next = heap -> begin;
heap -> end = heap -> begin + heap_size;
}
void heap_destroy ( Heap * heap ) {
free ( heap -> begin );
}
void state_init ( ASTInterpreterState * state, Heap * heap ) {
state -> heap = heap;
state -> global_env . prev = NULL;
state -> global_env . start = NULL;
state -> current_env = NULL;
}
void state_destroy ( ASTInterpreterState * state ) {
heap_destroy ( state -> heap );
Environment * env = & state -> global_env;
EnvironmentEntry * entry;
EnvironmentEntry * next = env -> start;
while ( (entry = next) ) {
next = entry -> next;
free ( entry );
}
Environment * next_env = state -> current_env;
while ( (env = next_env) ) {
next = env -> start;
while ( (entry = next) ) {
next = entry -> next;
free ( entry );
}
next_env = env -> prev;
}
}
Value * get_base ( Value * object ) {
Value * curr = object;
Object * tmp;
while ( curr -> kind == VALUE_OBJECT ) {
tmp = (Object *) curr -> address;
curr = &tmp -> extends;
}
return curr;
}
Value try_operator ( Value object, Value * arguments, size_t argc, Str * name ) {
switch ( object . kind ) {
case VALUE_INTEGER: {
if ( argc != 1 ) {
fprintf ( stderr, "Invalid argument count for integer operation %.*s.\n", (int) name -> len, name -> str );
bool is_int = arguments [ 0 ] . kind == VALUE_INTEGER;
if ( is_int ) {
if ( str_eq ( *name, STR ("+") ) )
return (Value) { .kind = VALUE_INTEGER, .integer = object . integer + arguments [ 0 ] . integer };
if ( str_eq ( *name, STR ("-") ) )
return (Value) { .kind = VALUE_INTEGER, .integer = object . integer - arguments [ 0 ] . integer };
if ( str_eq ( *name, STR ("*") ) )
return (Value) { .kind = VALUE_INTEGER, .integer = object . integer * arguments [ 0 ] . integer };
if ( str_eq ( *name, STR ("/") ) )
return (Value) { .kind = VALUE_INTEGER, .integer = object . integer / arguments [ 0 ] . integer };
if ( str_eq ( *name, STR ("%") ) )
return (Value) { .kind = VALUE_INTEGER, .integer = object . integer % arguments [ 0 ] . integer };
}
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer <= arguments [ 0 ] . integer : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer >= arguments [ 0 ] . integer : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer < arguments [ 0 ] . integer : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer > arguments [ 0 ] . integer : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer == arguments [ 0 ] . integer : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_int ? object . integer != arguments [ 0 ] . integer : false };
}
case VALUE_BOOLEAN: {
if ( argc != 1 ) {
fprintf ( stderr, "Invalid argument count for bool operation %.*s.\n", (int) name -> len, name -> str );
bool is_bool = arguments [ 0 ] . kind == VALUE_BOOLEAN;
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_bool ? object . boolean & arguments [ 0 ] . boolean : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_bool ? object . boolean | arguments [ 0 ] . boolean : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_bool ? object . boolean == arguments [ 0 ] . boolean : false };
return (Value) { .kind = VALUE_BOOLEAN, .boolean = is_bool ? object . boolean != arguments [ 0 ] . boolean : false };
if ( argc != 1 ) {
fprintf ( stderr, "Invalid amount of arguments for null operation %.*s.\n", (int) name -> len, name -> str );
exit ( 10 );
}
if ( str_eq ( *name, STR ("==") ) )
return (Value) { .kind = VALUE_BOOLEAN, .boolean = arguments [ 0 ] . kind == VALUE_NULL };
if ( str_eq ( *name, STR ("!=") ) )
return (Value) { .kind = VALUE_BOOLEAN, .boolean = arguments [ 0 ] . kind != VALUE_NULL };
break;
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case VALUE_ARRAY:
if ( str_eq ( *name, STR ("get") ) ) {
if ( argc != 1 || arguments [ 0 ] . kind != VALUE_INTEGER ) {
fprintf ( stderr, "Invalid argument for array get.\n" );
exit ( 11 );
}
Value * data = (Value*) object . address;
i32 index = arguments [ 0 ] . integer;
if ( index < 0 || index >= data [ 0 ] . integer ) {
fprintf ( stderr, "Index is out of bounds.\n" );
exit ( 11 );
}
return data [ index + 1 ];
}
if ( str_eq ( *name, STR ("set") ) ) {
if ( argc != 2 || arguments [ 0 ] . kind != VALUE_INTEGER ) {
fprintf ( stderr, "Invalid arguments for array set.\n" );
exit ( 12 );
}
Value * data = (Value*) object . address;
i32 index = arguments [ 0 ] . integer;
if ( index < 0 || index >= data [ 0 ] . integer ) {
fprintf ( stderr, "Index is out of bounds.\n" );
exit ( 12 );
}
data [ index + 1 ] = arguments [ 1 ];
return data [ index + 1 ];
}
break;
//fprintf ( stderr, "Method %.*s does not exist.\n", (int) name -> len, name -> str );
//exit ( 13 );
return (Value) { .kind = VALUE_INVALID };
}
Value function_call ( ASTInterpreterState * state, Value callee, bool is_function, Ast ** arguments, size_t argc, Str * name ) {
Value * values = (Value *) malloc ( argc * sizeof (Value) );
for ( size_t i = 0; i < argc; ++i )
values [ i ] = evaluate ( state, arguments [ i ] );
Value function = callee;
if ( ! is_function ) {
function = (Value) { .kind = VALUE_NULL };
Value * next = &callee;
Value * curr;
Object * tmp;
while ( next -> kind == VALUE_OBJECT ) {
curr = next;
tmp = (Object*) curr -> address;
for ( size_t i = 0; i < tmp -> member_cnt; ++i )
if ( str_eq ( tmp -> members [ i ] . name, *name ) ) {
function = tmp -> members [ i ] . value;
callee = *curr;
break;
}
next = & tmp -> extends;
}
if ( function . kind == VALUE_NULL ) {
curr = &callee;
Value * base = get_base ( &callee );
//while ( curr ) {
ret = try_operator ( *base, values, argc, name );
if ( ret . kind != VALUE_INVALID ) {
free ( values );
return ret;
}
// if ( curr -> kind == VALUE_OBJECT ) {
// tmp = (Object *) curr -> address;
// curr = &tmp -> extends;
// } else
// break;
//}
fprintf ( stderr, "Method %.*s does not exist for this object and/or arguments.\n", (int) name -> len, name -> str );
exit ( 13 );
} if ( function . kind != VALUE_FUNCTION ) {
fprintf ( stderr, "Invalid callee.\n" );
exit ( 4 );
}
Environment * tmp;
env_push ( state );
env_def ( state, STR ("this"), is_function ? (Value) { .kind = VALUE_NULL } : callee );
for ( size_t i = 0; i < argc; ++i )
env_def ( state, function . function -> parameters [ i ], values [ i ] );
ret = evaluate ( state, function . function -> body );
env_pop ( state );
Value * get_object_field ( Value * object, Str name ) {
Value * next = object;
Object * curr;
do {
curr = (Object*) next -> address;
for ( size_t i = 0; i < curr -> member_cnt; ++i )
if ( str_eq ( curr -> members [ i ] . name, name ) )
return & curr -> members [ i ] . value;
next = & curr -> extends;
} while ( next -> kind == VALUE_OBJECT );
int compare_entry ( const void * a, const void * b ) {
return str_cmp ( ((SimpleEntry*) a) -> name, ((SimpleEntry*) b) -> name );
}
void print_value ( Value value ) {
switch ( value . kind ) {
case VALUE_INTEGER:
printf ( "%" PRIi32, value . integer );
break;
case VALUE_BOOLEAN:
if ( value . boolean )
printf ( "true" );
else
printf ( "false" );
break;
case VALUE_NULL:
printf ( "null" );
break;
case VALUE_FUNCTION:
printf ( "function" );
break;
case VALUE_ARRAY:
putchar ( '[' );
Value * addr = (Value*) value . address;
for ( i32 i = 1; i <= addr [ 0 ] . integer; ++i ) {
if ( i != 1 )
printf ( ", " );
print_value ( addr [ i ] );
}
putchar ( ']' );
break;
case VALUE_OBJECT:
printf ( "object(");
Object * obj = (Object*) value . address;
bool parent = false;
if ( obj -> extends . kind != VALUE_NULL ) {
parent = true;
printf ( "..=" );
print_value ( obj -> extends );
}
if ( obj -> member_cnt )
qsort ( obj -> members, obj -> member_cnt, sizeof (SimpleEntry), compare_entry );
for ( size_t i = 0; i < obj -> member_cnt; ++i ) {
if ( i != 0 || parent )
printf ( ", " );
printf ( "%.*s=", (int) obj -> members [ i ] . name . len, obj -> members [ i ] . name . str );
print_value ( obj -> members [ i ] . value );
}
putchar ( ')' );
break;
case VALUE_INVALID:
fprintf ( stderr, "Invalid value.\n" );
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}
}
void fml_print ( Str format, Value * args, size_t argc ) {
u8 c;
size_t arg = 0;
for ( size_t i = 0; i < format . len; ++i ) {
c = format . str [ i ];
if ( c == '\\' ) {
++i;
c = format . str [ i ];
switch ( c ) {
case '~':
putchar ( '~' );
break;
case 'n':
putchar ( '\n' );
break;
case '"':
putchar ( '"' );
break;
case 'r':
putchar ( '\r' );
break;
case 't':
putchar ( '\t' );
break;
case '\\':
putchar ( '\\' );
break;
default:
fprintf ( stderr, "Invalid escaped character %c.\n", c );
exit ( 1 );
}
} else if ( c == '~' ) {
if ( arg == argc ) {
fprintf ( stderr, "Too many placeholders, not enough arguments.\n" );
exit ( 1 );
}
print_value ( args [ arg++ ] );
} else
putchar ( c );
}
}
Value evaluate ( ASTInterpreterState * state, Ast * ast ) {
switch ( ast -> kind ) {
case AST_INTEGER:
return (Value) { .kind = VALUE_INTEGER, .integer = ((AstInteger*) ast ) -> value };
case AST_BOOLEAN:
return (Value) { .kind = VALUE_BOOLEAN, .boolean = ((AstBoolean*) ast ) -> value };
case AST_NULL:
return (Value) { .kind = VALUE_NULL };
case AST_PRINT: {
AstPrint * printAst = (AstPrint*) ast;
Value * args = (Value *) malloc ( sizeof (Value) * printAst -> argument_cnt );
for ( size_t i = 0; i < printAst -> argument_cnt; ++i )
args [ i ] = evaluate ( state, printAst -> arguments [ i ] );
fml_print ( printAst -> format, args, printAst -> argument_cnt );
free ( args );
return (Value) { .kind = VALUE_NULL };
}
case AST_TOP: {
AstTop * topAst = (AstTop*) ast;
Value val = evaluate ( state, topAst -> expressions [ 0 ] );
for ( size_t i = 1; i < topAst -> expression_cnt; ++i )
val = evaluate ( state, topAst -> expressions [ i ] );
return val;
}
case AST_DEFINITION: {
AstDefinition * defAst = (AstDefinition*) ast;
Value value = evaluate ( state, defAst -> value );
env_def ( state, defAst -> name, value );
return value;
}
case AST_VARIABLE_ACCESS:
return env_get ( state, ((AstVariableAccess*) ast ) -> name );
case AST_VARIABLE_ASSIGNMENT: {
AstVariableAssignment * assignAst = (AstVariableAssignment*) ast;
Value value = evaluate ( state, assignAst -> value );
env_put ( state, assignAst -> name, value );
return value;
}
case AST_BLOCK: {
AstBlock * blockAst = (AstBlock*) ast;
env_push ( state );
Value value = evaluate ( state, blockAst -> expressions [ 0 ] );
for ( size_t i = 1; i < blockAst -> expression_cnt; ++i )
value = evaluate ( state, blockAst -> expressions [ i ] );
env_pop ( state );
return value;
}
case AST_CONDITIONAL: {
AstConditional * condAst = (AstConditional*) ast;
Value cond = evaluate ( state, condAst -> condition );
env_push ( state );
Value value;
Ast * cont = value_to_bool ( cond ) ? condAst -> consequent : condAst -> alternative;
value = evaluate ( state, cont );
env_pop ( state );
return value;
}
case AST_LOOP: {
AstLoop * loopAst = (AstLoop*) ast;
while ( value_to_bool ( evaluate ( state, loopAst -> condition ) ) ) {
env_push ( state );
evaluate ( state, loopAst -> body );
env_pop ( state );
}
return (Value) { .kind = VALUE_NULL };
}
case AST_FUNCTION:
return (Value) { .kind = VALUE_FUNCTION, .function = (AstFunction*) ast };
case AST_FUNCTION_CALL: {
AstFunctionCall * callAst = (AstFunctionCall*) ast;
Value function = evaluate ( state, callAst -> function );
return function_call ( state, function, true, callAst -> arguments, callAst -> argument_cnt, NULL );
}
case AST_METHOD_CALL: {
AstMethodCall * methodAst = (AstMethodCall*) ast;
Value object = evaluate ( state, methodAst -> object );
if ( object . kind == VALUE_FUNCTION ) {
fprintf ( stderr, "Calling method on function.\n" );
exit ( 4 );
}
return function_call ( state, object, false, methodAst -> arguments, methodAst -> argument_cnt, &methodAst -> name );
case AST_ARRAY: {
AstArray * arrAst = (AstArray*) ast;
Value size = evaluate ( state, arrAst -> size );
if ( size . kind != VALUE_INTEGER || size . integer < 0 ) {
fprintf ( stderr, "Invalid array size.\n" );
exit ( 5 );
}
Value * addr = (Value*) heap_alloc ( state -> heap, sizeof (Value) * (size . integer + 1), alignof (Value) );
addr [ 0 ] = (Value) { .kind = VALUE_INTEGER, .integer = size . integer };
for ( i32 i = 1; i <= size . integer; ++i ) {
Value val = evaluate ( state, arrAst -> initializer );
addr [ i ] = val;
}
return (Value) { .kind = VALUE_ARRAY, .address = addr };
}
case AST_INDEX_ACCESS: {
AstIndexAccess * iaccess = (AstIndexAccess*) ast;
Value object = evaluate ( state, iaccess -> object );
Str tmp = STR ("get");
return function_call ( state, object, false, &iaccess -> index, 1, &tmp );
}
case AST_INDEX_ASSIGNMENT: {
AstIndexAssignment * iassign = (AstIndexAssignment*) ast;
Value object = evaluate ( state, iassign -> object );
Ast * arguments [2];
arguments [ 0 ] = iassign -> index;
arguments [ 1 ] = iassign -> value;
Str tmp = STR ("set");
return function_call ( state, object, false, arguments, 2, &tmp );
}
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case AST_OBJECT: {
AstObject * objAst = (AstObject*) ast;
Value extends = evaluate ( state, objAst -> extends );
Object * addr = (Object*) heap_alloc ( state -> heap, sizeof (Object), alignof (Object) );
addr -> member_cnt = objAst -> member_cnt;
addr -> extends = extends;
addr -> members = (SimpleEntry*) heap_alloc ( state -> heap, sizeof (SimpleEntry) * addr -> member_cnt, alignof (SimpleEntry) );
Value value;
AstDefinition * defAst;
for ( size_t i = 0; i < addr -> member_cnt; ++i ) {
if ( objAst -> members [ i ] -> kind != AST_DEFINITION ) {
fprintf ( stderr, "Invalid object member.\n" );
exit ( 7 );
}
defAst = (AstDefinition*) objAst -> members [ i ];
env_push ( state );
value = evaluate ( state, objAst -> members [ i ] );
env_pop ( state );
addr -> members [ i ] . name = defAst -> name;
addr -> members [ i ] . value = value;
}
return (Value) { .kind = VALUE_OBJECT, .address = addr };
}
case AST_FIELD_ACCESS: {
AstFieldAccess * accessAst = (AstFieldAccess *) ast;
Value object_value = evaluate ( state, accessAst -> object );
if ( object_value . kind != VALUE_OBJECT ) {
fprintf ( stderr, "Trying to access field of non object.\n" );
exit ( 8 );
}
Value * result = get_object_field ( &object_value, accessAst -> field );
if ( ! result ) {
fprintf ( stderr, "Field %.*s was not found in specified object.\n", (int) accessAst -> field . len, accessAst -> field . str );
exit ( 8 );
}
return *result;
}
case AST_FIELD_ASSIGNMENT: {
AstFieldAssignment * assignAst = (AstFieldAssignment*) ast;
Value object_value = evaluate ( state, assignAst -> object );
if ( object_value . kind != VALUE_OBJECT ) {
fprintf ( stderr, "Trying to assign to a field of non object.\n" );
exit ( 8 );
}
Value value = evaluate ( state, assignAst -> value );
Value * result = get_object_field ( &object_value, assignAst -> field );
if ( ! result ) {
fprintf ( stderr, "Field %.*s was not found in specified object.\n", (int) assignAst -> field . len, assignAst -> field . str );
exit ( 8 );
}
}
return (Value) { .kind = VALUE_NULL };
}