Name

SPVM::Document::NativeAPI - Native APIs

Description

The native APIs of SPVM are the APIs written by the C language for various operations.

These APIs are used in native classes.

Native APIs

runtime

void* runtime;

The runtime object for this environment.

Examples:

env->runtime;

api

void* api;

Access to other native APIs.

Allocator Native API

env->api->allocator;

SPVM::Document::NativeAPI::Allocator

String Buffer Native API

env->api->string_buffer;

SPVM::Document::NativeAPI::StringBuffer

Compiler Native API

env->api->compiler;

SPVM::Document::NativeAPI::Compiler

Class File Native API

env->api->class_file;

SPVM::Document::NativeAPI::ClassFile

Runtime Native API

env->api->runtime;

SPVM::Document::NativeAPI::Runtime

Basic Type Native API

env->api->basic_type;

SPVM::Document::NativeAPI::BasicType

Class Variable Native API

env->api->clsas_var;

SPVM::Document::NativeAPI::ClassVariable

Field Native API

env->api->field;

SPVM::Document::NativeAPI::Field

Method Native API

env->api->method;

SPVM::Document::NativeAPI::Method

Argument Native API

env->api->arg;

SPVM::Document::NativeAPI::Argument

Type Native API

env->api->type;

SPVM::Document::NativeAPI::Type

Internal Native API

env->api->internal;

SPVM::Document::NativeAPI::Internal

Mutex Native API

env->api->mutex;

SPVM::Document::NativeAPI::Mutex

new_env

SPVM_ENV* (*new_env)();

Creates a new environment.

free_env

void (*free_env)(SPVM_ENV* env);

Frees an environment.

call_init_methods

int32_t (*call_init_methods)(SPVM_ENV* env, SPVM_VALUE* stack);

Calls all INIT methods defined by INIT blocks.

If an exception is thrown, returns non-zero value. Otherwise returns 0.

set_command_info_program_name

int32_t (*set_command_info_program_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* obj_program_name);

Sets the CommandInfo-PROGRAM_NAME|SPVM::CommandInfo/"PROGRAM_NAME"> class variable to the program name.

If an exception is thrown, returns non-zero value. Otherwise returns 0.

set_command_info_argv

int32_t (*set_command_info_argv)(SPVM_ENV* env, SPVM_VALUE* stack, void* obj_argv);

Sets the CommandInfo-PROGRAM_NAME|SPVM::CommandInfo/"ARGV"> class variable to the command line arguments.

If an exception is thrown, returns non-zero value. Otherwise returns 0.

set_command_info_base_time

int32_t (*set_command_info_base_time)(SPVM_ENV* env, SPVM_VALUE* stack, int64_t base_time);

Sets the CommandInfo-BASE_TIME|SPVM::CommandInfo/"BASE_TIME"> class variable to the time when the program starts.

If an exception is thrown, returns non-zero value. Otherwise returns 0.

destroy_class_vars

void (*destroy_class_vars)(SPVM_ENV* env, SPVM_VALUE* stack);

Destroys all class variables.

args_width

int32_t (*args_width)(SPVM_ENV* env, SPVM_VALUE* stack);

Returns the total width of the arguments given by the caller.

Examples:

int32_t args_width = env->args_width(env, stack);

get_object_basic_type

void* (*get_object_basic_type)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Returns the basic type of the object.

get_object_basic_type_id

int32_t (*get_object_basic_type_id)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Returns the basic type ID of the object.

get_object_basic_type_name

const char* (*get_object_basic_type_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Returns the basic type name of the object.

get_object_type_dimension

int32_t (*get_object_type_dimension)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Returns the type dimension of the object.

get_basic_type

void* (*get_basic_type)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name);

Gets a basic type by a basic type name.

get_basic_type_by_name

void* (*get_basic_type_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets a basic type by a basic type name.

If an exception is thrown, error_id is set to non-zero value. Otherwise it is set to 0.

get_basic_type_by_id

void* (*get_basic_type_by_id)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t basic_type_id);

Gets a basic type by a basic type ID.

get_basic_type_id

int32_t (*get_basic_type_id)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name);

Gets a basic type ID by a basic type name.

Examples:

int32_t basic_type_id = env->get_basic_type_id(env, stack, "Int");

get_basic_type_id_by_name

int32_t (*get_basic_type_id_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets a basic type ID by a basic type name.

If an exception is thrown, error_id is set to non-zero value. Otherwise it is set to 0.

get_class_var

void* (*get_class_var)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name);

Gets a class variable object by its basic type name and class variable name, and returns it.

If the class variable does not exist, returns NULL.

Examples:

void* class_var = env->get_class_var(env, stack, "MyClass", "$VAR");

get_class_var_byte

int8_t (*get_class_var_byte)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the byte type.

The argument class_var must be a valid class variable object.

get_class_var_short

int16_t (*get_class_var_short)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the short type.

The argument class_var must be a valid class variable object.

get_class_var_int

int32_t (*get_class_var_int)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the int type.

The argument class_var must be a valid class variable object.

get_class_var_long

int64_t (*get_class_var_long)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the long type.

The argument class_var must be a valid class variable object.

get_class_var_float

float (*get_class_var_float)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the float type.

The argument class_var must be a valid class variable object.

get_class_var_double

double (*get_class_var_double)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the double type.

The argument class_var must be a valid class variable object.

get_class_var_object

void* (*get_class_var_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the value of a class variable of the object type.

The argument class_var must be a valid class variable object.

get_class_var_strig

The same as "get_class_var_object".

get_class_var_object_ref

void** (*get_class_var_object_ref)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var);

Gets the address of the value of a class variable of the object type.

The argument class_var must be a valid class variable object.

set_class_var_byte

void (*set_class_var_byte)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, int8_t value);

Sets the value of a class variable of the byte type.

The argument class_var must be a valid class variable object.

set_class_var_short

void (*set_class_var_short)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, int16_t value);

Sets the value of a class variable of the short type.

The argument class_var must be a valid class variable object.

set_class_var_int

void (*set_class_var_int)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, int32_t value);

Sets the value of a class variable of the int type.

The argument class_var must be a valid class variable object.

set_class_var_long

void (*set_class_var_long)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, int64_t value);

Sets the value of a class variable of the long type.

The argument class_var must be a valid class variable object.

set_class_var_float

void (*set_class_var_float)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, float value);

Sets the value of a class variable of the float type.

The argument class_var must be a valid class variable object.

set_class_var_double

void (*set_class_var_double)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, double value);

Sets the value of a class variable of the double type.

The argument class_var must be a valid class variable object.

set_class_var_object

void (*set_class_var_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* class_var, void* value);

Sets the value of a class variable of the object type.

The argument class_var must be a valid class variable object.

set_class_var_string

The same as "set_class_var_object".

get_class_var_byte_by_name

int8_t (*get_class_var_byte_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the byte type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t value = env->get_class_var_byte_by_name(env, stack, "TestCase::NativeAPI", "$BYTE_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_short_by_name

int16_t (*get_class_var_short_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the short type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int16_t value = env->get_class_var_short_by_name(env, stack, "TestCase::NativeAPI", "$SHORT_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_int_by_name

int32_t (*get_class_var_int_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the int type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t value = env->get_class_var_int_by_name(env, stack, "TestCase::NativeAPI", "$BYTE_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_long_by_name

int64_t (*get_class_var_long_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the long type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int64_t value = env->get_class_var_long_by_name(env, stack, "TestCase::NativeAPI", "$LONG_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_float_by_name

float (*get_class_var_float_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the float type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
float value = env->get_class_var_float_by_name(env, stack, "TestCase::NativeAPI", "$FLOAT_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_double_by_name

double (*get_class_var_double_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the double type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
double value = env->get_class_var_double_by_name(env, stack, "TestCase::NativeAPI", "$DOUBLE_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_object_by_name

void* (*get_class_var_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a class variable of the object type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
void* value = env->get_class_var_object_by_name(env, stack, "TestCase::NativeAPI", "$MINIMAL_VALUE", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_class_var_string_by_name

The same as "get_class_var_object_by_name".

set_class_var_byte_by_name

void (*set_class_var_byte_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int8_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the byte type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_byte_by_name(env, stack, "TestCase::NativeAPI", "$BYTE_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_short_by_name

void (*set_class_var_short_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int16_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the short type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_short_by_name(env, stack, "TestCase::NativeAPI", "$SHORT_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_int_by_name

void (*set_class_var_int_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int32_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the int type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_int_by_name(env, stack, "TestCase::NativeAPI", "$INT_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_long_by_name

void (*set_class_var_long_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, int64_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the long type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_long_by_name(env, stack, "TestCase::NativeAPI", "$LONG_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_float_by_name

void (*set_class_var_float_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, float value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the float type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_float_by_name(env, stack, "TestCase::NativeAPI", "$FLOAT_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_double_by_name

void (*set_class_var_double_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, double value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the double type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_double_by_name(env, stack, "TestCase::NativeAPI", "$DOUBLE_VALUE", 15, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_object_by_name

void (*set_class_var_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* class_var_name, void* value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a class variable of the object type by its basic type name and class variable name.

If an excetpion is thrown because the class variable does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_class_var_object_by_name(env, stack, "TestCase::NativeAPI", "$MINIMAL_VALUE", minimal, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_class_var_string_by_name

The same as "set_class_var_object_by_name".

get_field

void* (*get_field_by_index)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name);

Gets a field object by its basic type name of the object and field name, and returns it.

If the field does not exist, returns NULL.

Examples:

void* field = env->get_field(env, stack, object, "x");

get_field_static

void* (*get_field_static)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* field_name);

Gets a field object by its basic type name and field name, and returns it.

If the field does not exist, returns NULL.

Examples:

void* field = env->get_field_static(env, stack, "Point", "x");

get_field_byte

int8_t (*get_field_byte)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the byte type.

The argument field must be a valid field object.

get_field_short

int16_t (*get_field_short)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the short type.

The argument field must be a valid field object.

get_field_int

int32_t (*get_field_int)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the int type.

The argument field must be a valid field object.

get_field_long

int64_t (*get_field_long)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the long type.

The argument field must be a valid field object.

get_field_float

float (*get_field_float)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the float type.

The argument field must be a valid field object.

get_field_double

double (*get_field_double)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the double type.

The argument field must be a valid field object.

get_field_object

void* (*get_field_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the value of a field of the object type.

The argument field must be a valid field object.

get_field_string

The same as "get_field_object".

set_field_byte

void (*set_field_byte)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, int8_t value);

Sets the value of a field of the byte type.

The argument field must be a valid field object.

set_field_short

void (*set_field_short)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, int16_t value);

Sets the value of a field of the short type.

The argument field must be a valid field object.

set_field_int

void (*set_field_int)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, int32_t value);

Sets the value of a field of the int type.

The argument field must be a valid field object.

set_field_long

void (*set_field_long)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, int64_t value);

Sets the value of a field of the long type.

The argument field must be a valid field object.

set_field_float

void (*set_field_float)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, float value);

Sets the value of a field of the float type.

The argument field must be a valid field object.

set_field_double

void (*set_field_double)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, double value);

Sets the value of a field of the double type.

The argument field must be a valid field object.

set_field_object

void (*set_field_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field, void* value);

Sets the value of a field of the object type.

The argument field must be a valid field object.

set_field_string

The same as "set_field_object".

get_field_byte_by_name

int8_t (*get_field_byte_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the byte type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t byte_value = env->get_field_byte_by_name(env, stack, object, "byte_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_short_by_name

int16_t (*get_field_short_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the short type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t short_value = env->get_field_short_by_name(env, stack, object, "short_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_int_by_name

int32_t (*get_field_int_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the int type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t int_value = env->get_field_int_by_name(env, stack, object, "int_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_long_by_name

int64_t (*get_field_long_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the long type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t long_value = env->get_field_long_by_name(env, stack, object, "long_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_float_by_name

float (*get_field_float_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the float type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t float_value = env->get_field_float_by_name(env, stack, object, "float_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_double_by_name

double (*get_field_double_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the double type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
int8_t double_value = env->get_field_double_by_name(env, stack, object, "double_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_object_by_name

void* (*get_field_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the value of a field of the object type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
void* object_minimal = env->get_field_object_by_name(env, stack, object_simple, "object_value", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_field_string_by_name

The same as "get_field_object_by_name".

set_field_byte_by_name

void (*set_field_byte_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int8_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the byte type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_byte_by_name(env, stack, object, "byte_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_short_by_name

void (*set_field_short_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int16_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the short type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_short_by_name(env, stack, object, "short_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_int_by_name

void (*set_field_int_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the int type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_int_by_name(env, stack, object, "int_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_long_by_name

void (*set_field_long_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int64_t value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the long type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_long_by_name(env, stack, object, "long_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_float_by_name

void (*set_field_float_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, float value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the float type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_float_by_name(env, stack, object, "float_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_double_by_name

void (*set_field_double_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, double value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the double type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_double_by_name(env, stack, object, "double_value", 13, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_object_by_name

void (*set_field_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, void* value, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Sets the value of a field of the object type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

Examples:

int32_t error_id = 0;
env->set_field_object_by_name(env, stack, object_simple, "object_value", object_minimal, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

set_field_string_by_name

The same as "set_field_object_by_name".

get_method

void* (*get_method)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* method_name);

Returns a method given a basic type name and a method name. If the method does not exists, returns NULL.

Examples:

void* method = env->get_method(env, stack, "Foo", "get");

get_class_method

void* (*get_class_method)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* method_name);

Returns a class method given a basic type name and a method name. If the class method does not exists, returns NULL.

Examples:

void* method = env->get_class_method(env, stack, "Foo", "get");

get_instance_method

void* (*get_instance_method)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* method_name);

Gets an instance method address by the object and the method name. If the instance method does not exist, a negative value is returned.

Examples:

void* method = env->get_instance_method(env, stack, object, "get");

new_object_no_mortal

void* (*new_object_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type);

Creates a new object with a basic type. The basic type must be the correct basic type ID return by the "get_basic_type_id" Native API.

new_object

void* (*new_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type);

The same as new_object_no_mortal, and add the created object to the mortal stack of the environment. Use this function in normal use instead of new_object_no_mortal.

Examples:

void* basic_type = env->get_basic_type(env, stack, "Int");
void* object = env->new_object(env, stack, basic_type);

new_byte_array_no_mortal

void* (*new_byte_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new byte[] type array by specifying the length.

new_byte_array

void* (*new_byte_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_byte_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_byte_array_no_mortal.

Examples:

void* byte_array = env->new_byte_array(env, stack, 100);

new_short_array_no_mortal

void* (*new_short_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new short[] type array by specifying the length.

new_short_array

void* (*new_short_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_short_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_short_array_no_mortal.

Examples:

void* short_array = env->new_short_array(env, stack, 100);

new_int_array_no_mortal

void* (*new_int_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new int[] type array by specifying the length.

new_int_array

void* (*new_int_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_int_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_int_array_no_mortal.

Examples:

void* int_array = env->new_int_array(env, stack, 100);

new_long_array_no_mortal

void* (*new_long_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new long[] type array by specifying the length.

new_long_array

void* (*new_long_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_long_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_long_array_no_mortal.

Examples:

void* long_array = env->new_long_array(env, stack, 100);

new_float_array_no_mortal

void* (*new_float_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new float[] type array by specifying the length.

new_float_array

void* (*new_float_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_float_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_float_array_no_mortal.

Examples:

void* float_array = env->new_float_array(env, stack, 100);

new_double_array_no_mortal

void* (*new_double_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new double[] type array by specifying the length.

new_double_array

void* (*new_double_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

The same as new_double_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_double_array_no_mortal.

Examples:

void* double_array = env->new_double_array(env, stack, 100);

new_object_array_no_mortal

void* (*new_object_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t length);

Creates a new object type array by specifying the basic type and the array length. The basic type must be the correct basic type got by the "get_basic_type" Native API.

new_object_array

void* (*new_object_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t length);

The same as new_object_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_object_array_no_mortal.

Examples:

int32_t basic_type_id = env->get_basic_type_id(env, stack, "Int");
void* object_array = env->new_object_array(env, stack, basic_type_id, 100);

new_muldim_array_no_mortal

void* (*new_muldim_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t type_dimension, int32_t length);

Creates a new multi-dimensional array by specifying the basic type and the type dimension, and the array length. The basic type must be the correct basic type got bu the "get_basic_type_id" Native API. the type dimension of the element must be less than or equals to 255.

new_muldim_array

void* (*new_muldim_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t type_dimension, int32_t length);

The same as new_muldim_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_muldim_array_no_mortal.

Examples:

// Creates 2-dimensional array - The same as "new Int[][100]".
int32_t basic_type_id = env->get_basic_type_id(env, stack, "Int");
void* multi_array = env->new_muldim_array(env, stack, basic_type_id, 2, 100);

new_mulnum_array_no_mortal

void* (*new_mulnum_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t length);

Creates a new multi-numeric array by specifying the basic type and the array length. The basic type must be the correct basic type got by the "basic_type_id" Native API.

new_mulnum_array

void* (*new_mulnum_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, int32_t length);

The same as new_mulnum_array_no_mortal, and add the created array to the mortal stack of the environment. Use this function in normal use instead of new_mulnum_array_no_mortal.

Examples:

int32_t basic_type_id = env->get_basic_type_id(env, stack, "Complex_2d");
void* value_array = env->new_mulnum_array(env, stack, basic_type_id, 100);

new_string_nolen_no_mortal

void* (*new_string_nolen_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, const char* bytes);

Creates a new string object by specifying C language char* type value. this value must end with "\0".

new_string_nolen

void* (*new_string_nolen)(SPVM_ENV* env, SPVM_VALUE* stack, const char* bytes);

The same as new_string_nolen_no_mortal, and push the created object to the mortal stack. Use this function in normal use instead of new_string_nolen_no_mortal.

Examples:

void* str_obj = env->new_string_nolen(env, stack, "Hello World");

new_string_no_mortal

void* (*new_string_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, const char* bytes, int32_t length);

Creates a new string object with the bytes and the length.

If the length of bytes is lower than the specified length or the bytes is NULL, The part that longer than the length of bytes will be filled with \0.

new_string

void* (*new_string)(SPVM_ENV* env, SPVM_VALUE* stack, const char* bytes, int32_t length);

The same as new_string_no_mortal, and push the created object to the mortal stack. Usually use this function instead of new_string_no_mortal.

Examples:

void* str_obj = env->new_string(env, stack, "Hello \0World", 11);

concat_no_mortal

void* (*concat_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* string1, void* string2);

Concats two strings.

concat

void* (*concat)(SPVM_ENV* env, SPVM_VALUE* stack, void* string1, void* string2);

The same as concat_no_mortal, and push the created object to the mortal stack. Use this function in normal use instead of concat_no_mortal.

new_stack_trace_no_mortal

void* (*new_stack_trace_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* exception, void* method, int32_t line);

Creates a string object that represents a stack trace by adding the file and line the method is called to the end of the exception message.

new_stack_trace

void* (*new_stack_trace)(SPVM_ENV* env, SPVM_VALUE* stack, void* exception, void* method, int32_t line);

The same as "new_stack_trace_no_mortal", and push the created object to the mortal stack.

length

int32_t (*length)(SPVM_ENV*, void* array);

If you specify an array, the length of the array is returned.

Examples:

int32_t length = env->length(env, stack, array);

get_elems_byte

int8_t* (*get_elems_byte)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

If you specify a byte[] type array, the pointer at the beginning of the internally stored C language int8_t[] type array is returned.

Examples:

int8_t* values = env->get_elems_byte(env, stack, array);
values[3] = 5;

get_elems_short

int16_t* (*get_elems_short)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

If a short[] type array is specified, the pointer at the beginning of the internally stored C language int16_t[] type array is returned.

Examples:

int16_t* values = env->get_elems_short(env, stack, array);
values[3] = 5;

get_elems_int

int32_t* (*get_elems_int)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

When an int[] type array is specified, the pointer at the beginning of the internally stored C language int32_t[] type array is returned.

Examples:

int32_t* values = env->get_elems_int(env, stack, array);
values[3] = 5;

get_elems_long

int64_t* (*get_elems_long)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

When a long[] type array is specified, the pointer at the beginning of the internally stored C language int64_t[] type array is returned.

Examples:

int64_t* values = env->get_elems_long(env, stack, array);
values[3] = 5;

get_elems_float

float* (*get_elems_float)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

When a float[] type array is specified, the pointer at the beginning in the C language float[] type array internally held is returned.

Examples:

float* values = env->get_elems_float(env, stack, array);
values[3] = 1.5f;

get_elems_double

double* (*get_elems_double)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

If a double[] type array is specified, the pointer at the beginning of the internally stored C double[] type array is returned.

Examples:

double* values = env->get_elems_double(env, stack, array);
values[3] = 1.5;

get_elem_object

void* (*get_elem_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, int32_t index);

Gets an object of an element given an array of object types and a methodscript. If the element is a weak reference, the weak reference is removed.

Examples:

void* object = env->get_elem_object(env, stack, array, 3);

set_elem_object

void (*set_elem_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, int32_t index, void* object);

If you specify an array of object type and methodscript and element objects, the element object is assigned to the corresponding methodscript position. If the element's object has a weak reference, the weak reference is removed. The reference count of the originally assigned object is decremented by 1.

Examples:

env->get_elem_object(env, stack, array, 3, object);

get_pointer

void* (*get_pointer)(SPVM_ENV* env, SPVM_VALUE* stack, void* pointer_object);

Specifies a pointer object and return the C language pointer stored inside the object.

Examples:

strcut tm* tm_ptr = (struct tm*) env->get_pointer(env, stack, tm_obj);

set_pointer

void (*set_pointer)(SPVM_ENV* env, SPVM_VALUE* stack, void* pointer_object, void* pointer);

If you specify a pointer object and a C language pointer, the C language pointer is saved in the internal data of the pointer type object.

call_method_no_mortal

int32_t (*call_method_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* method, int32_t args_width);

Call a method by specifying the method address and the stack length of the argument. If an exception occurs in the method, The return value is 1. If not, return 0.

The return value of the method is set to stack[0].

get_exception

void* (*get_exception)(SPVM_ENV* env, SPVM_VALUE* stack);

Gets a exception message which type is byte[].

set_exception

void (*set_exception)(SPVM_ENV* env, SPVM_VALUE* stack, void* exception);

Sets a exception message which type is byte[].

enter_scope

int32_t (*enter_scope)(SPVM_ENV* env, SPVM_VALUE* stack);

Creates a new scope and return the scope ID.

push_mortal

int32_t (*push_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Add an object to the mortal stack.

If this method succeed, return 0.

If this method don't alloc memory for new mortal information, return 1.

leave_scope

void (*leave_scope)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t scope_id);

Specifies a scope ID to exit that scope and decrement the object's reference count stored in the mortal stack. Objects with a reference count of 0 are released. The scope ID must be the ID obtained by the enter_scope function.

isa

int32_t (*isa)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* cast_basic_type, int32_t cast_type_dimension);

Checks if the object object can be assigned to the type given by the basic type cast_basic_type and the type dimension cast_type_dimension.

If it is ok, returns 1. Otherwise returns 0.

elem_isa

int32_t (*elem_isa)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, void* element);

Checks if the element element can be assigned to the element of the array array.

If it is ok, returns 1. Otherwise returns 0.

is_type

int32_t (*is_type)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* basic_type, int32_t type_dimension);

Given an object and a basic type and a type dimension, returns a nonzero value if the object matches both the basic type and the type dimension, and 0 otherwise.

is_object_array

int32_t (*is_object_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is a object array, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

weaken

int32_t (*weaken)(SPVM_ENV* env, SPVM_VALUE* stack, void** ref);

Weakens the reference ref.

isweak

int32_t (*isweak()SPVM_ENV* env, void** ref);

Checks if the reference ref is weakend. If so, returns 1, otherwise, returns 0.

unweaken

void (*unweaken)(SPVM_ENV* env, SPVM_VALUE* stack, void** ref);

Unweakens the reference ref.

get_type_name_no_mortal

void* (*get_type_name_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Gets a new string object that is the type name of the object.

This function does not add the returned object to the mortal stack, so use the get_type_name Native API for normal use to avoid memory leaks.

get_type_name

void* (*get_type_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Gets a new string object that is the type name of the object.

get_chars

const char* (*get_chars)(SPVM_ENV* env, SPVM_VALUE* stack, void* string_object);

Gets characters in the string object.

Examples:

const char* bytes = env-get_chars(env, stack, string_object);>

die

int32_t (*die)(SPVM_ENV* env, SPVM_VALUE* stack, const char* message, ...);

Creates a sprintf formatted message with file name and line number and set it to the exception.

Last three arguments are the function name, the file name, and the line number.

Returns value is the basic type ID of the Error class.

Examples:

return env->die(env, stack, "Value must be %d", 3, __func__, __FILE__, __LINE__);

new_object_by_name

void* (*new_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

This is the same as the "new_object" Native API, but you can specify basic type name directly.

If function is succeeded, error is set to 0. If a exception occurs, error is set to 1.

Examples:

int32_t error_id = 0;
void* minimal = env->new_object_by_name(env, stack, "TestCase::Minimal", &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

call_class_method_by_name

void (*call_class_method_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* method_name, int32_t args_width, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Calls a class method given the basic type name and method name.

Examples:

int32_t error_id = 0;
int32_t output;
{
  int32_t args_width = 1;
  stack[0].ival = 5;
  env->call_class_method_by_name(env, stack, "TestCase::NativeAPI", "my_value", args_width, &error_id, __func__, __FILE__, __LINE__);
  if (error_id) { return error_id; }
  
  output = stack[0].ival;
}

call_instance_method_by_name

void (*call_instance_method_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* method_name, int32_t args_width, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Calls an instance method given the method name.

get_field_string_chars_by_name

const char* (*get_field_string_chars_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

dump_no_mortal

void* (*dump_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Gets the string which dump the object. The string is the same as the return value of dump operator.

dump

void* (*dump)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

The same as dump_no_mortal, and push the created object to the mortal stack. Use this function in normal use instead of dump_no_mortal.

get_instance_method_static

void* (*get_instance_method_static)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* method_name);

Returns an instance method given a basic type name and a method name. If the instance method does not exists, returns NULL.

Examples:

void* method = env->get_instance_method_static(env, stack, "Foo", "get");

get_bool_object_value

int32_t (*get_bool_object_value)(SPVM_ENV* env, SPVM_VALUE* stack, void* bool_object);

Gets the value of a Bool object. If the Bool object is true, return 1, otherwise return 0.

Examples:

int32_t bool_value = env->get_bool_object_value(env, stack, bool_object);

make_read_only

void (*make_read_only)(SPVM_ENV* env, SPVM_VALUE* stack, void* string)

Make the string read-only.

is_read_only

void (*make_read_only)(SPVM_ENV* env, SPVM_VALUE* stack, void* string)

If the string is read-only, returns 1, otherwise returns 0.

is_array

int32_t (*is_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is an array, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

is_string

int32_t (*is_string)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is a string, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

is_numeric_array

int32_t (*is_numeric_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is a numeric array, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

is_mulnum_array

int32_t (*is_mulnum_array)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is a multi numeric array, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

get_elem_size

int32_t (*get_elem_size)(SPVM_ENV* env, SPVM_VALUE* stack, void* array);

Gets the byte size of the element of the array.

new_array_proto

void* (*new_array_proto)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, int32_t length);

Creates a new array that have the type of the given array and the given length.

The given array must be the object that is an array type.

If the given array is NULL, returns NULL.

If the given length is lower than 0, returns NULL.

copy

void* (*copy)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

Copy the object. The type of the object must be a string type, a numeric array, or a multi numeric array.

If the given object is NULL, returns NULL.

shorten

void (*shorten)(SPVM_ENV* env, SPVM_VALUE* stack, void* string, int32_t new_length);

Shorten the string with the given length.

If the string is null, does nothing.

If the given length is greater than the length of the string, does nothing.

If the given length is lower than 0, the given length become 0.

The charaters of the after the given length are filled with \0.

print

void (*print)(SPVM_ENV* env, SPVM_VALUE* stack, void* string);

Prints a string to stdout. This is the same operator as the print operator.

void (*print_stderr)(SPVM_ENV* env, SPVM_VALUE* stack, void* string);

Prints a string to stderr. This is the same operator as the print operator except for the destination of the output.

new_stack

SPVM_VALUE* (*new_stack)(SPVM_ENV* env);

free_stack

void (*free_stack)(SPVM_ENV* env, SPVM_VALUE* stack);

new_memory_block

void* (*new_memory_block)(SPVM_ENV* env, SPVM_VALUE* stack, size_t size);

Creates a new memory block that is managed by the call stack with the byte size and return the address. If it fails, return NULL.

The count of the memory block that is managed by the stack is incremented by 1.

The count of the memory block that is managed by the environment is incremented by 1.

free_memory_block

void (*free_memory_block)(SPVM_ENV* env, SPVM_VALUE* stack, void* block);

Frees the memory block that is managed by the call stack.

The count of the memory block that is managed by the stack is decremented by 1.

The count of the memory block that is managed by the environment is decremented by 1.

get_memory_blocks_count

int32_t (*get_memory_blocks_count)(SPVM_ENV* env, SPVM_VALUE* stack);

Returns the count of memory blocks the current runtime allocates.

strerror_string

void* (*strerror_string)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t errno_value, int32_t length);

The same as the "strerror" function, but return a string object.

strerror_string_nolen

void* (*strerror_string_nolen)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t errno_value);

Calls the "strerror_string" function given length 0, and returns its return value.

strerror

const char* (*strerror)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t errno_value, int32_t length);

Returns the return value of the strerror function in the C language.

If the length is 0, the length is set to 128.

If the strerror function failed, errno is set to the an appropriate positive value.

This function is thread-safe.

This function actually is implemented by the following functions:

Windows:

errno_t strerror_s(char *buffer, size_t sizeInBytes, int errnum);

Other OSs:

int strerror_r(int errnum, char *buf, size_t buflen); /* XSI-compliant */

strerror_nolen

const char* (*strerror_nolen)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t errno_value);

Calls the "strerror" function given length 0, and returns its return value.

new_string_array

void* (*new_string_array)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Calls the "new_string_array_no_mortal" native API and calls the "push_mortal/" native API given the return value.

new_string_array_no_mortal

void* (*new_string_array_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, int32_t length);

Creates a new string array.

dumpc

const char* (*dumpc)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

The alias for the following code using "dump".

const char* ret = env->get_chars(env, stack, env->dump(env, stack, object));

new_pointer_object_no_mortal

void* (*new_pointer_object_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, void* pointer);

Creates a pointer object by specifying a basic type and a C language pointer. The basic type must be the correct basic type got by the "get_basic_type" Native API.

new_pointer_object

void* (*new_pointer_object)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type, void* pointer);

The same as "new_pointer_no_mortal", and push the created object to the mortal stack. Use this function in normal use instead of new_pointer_no_mortal.

Examples:

void* basic_type = env->get_basic_type(env, stack, "MyTime");
void* pointer = malloc(sizeof (struct tm));
void* pointer_obj = env->new_pointer(env, stack, basic_type, pointer);

new_pointer_object_by_name

void* (*new_pointer_object_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, void* pointer, int32_t* error_id, const char* func_name, const char* file, int32_t line);

This is the same as "new_pointer" function, but you can specify basic type name directly.

If function is succeeded, error is set to 0. If a exception occurs, error is set to 1.

int32_t error_id = 0;
void* minimal = env->new_pointer_by_name(env, stack, "TestCase::Pointer", pointer, &error_id, __func__, __FILE__, __LINE__);
if (error_id) { return error_id; }

get_elem_string

void* (*get_elem_string)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, int32_t index);

The same as "get_elem_object".

set_elem_string

void (*set_elem_string)(SPVM_ENV* env, SPVM_VALUE* stack, void* array, int32_t index, void* string);

The same as "set_elem_object".

is_class

int32_t (*is_class)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is an instance of a class, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

is_pointer_class

int32_t (*is_pointer_class)(SPVM_ENV* env, SPVM_VALUE* stack, void* object);

If the object is an instance of a pointer class, returns 1, otherwise returns 0.

If the object is NULL, returns 0.

call_instance_method_static_by_name

void (*call_instance_method_static_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, const char* method_name, int32_t args_width, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Calls an instance method by the basic type name and the method name.

Examples:

int32_t error_id = 0;
int32_t output;
{
  int32_t args_width = 1;
  stack[0].oval = obj_point;
  env->call_instance_method_static_by_name(env, stack, "Point", "x", args_width, &error_id, __func__, __FILE__, __LINE__);
  if (error_id) { return error_id; }
  output = stack[0].ival;
}

get_compile_type_name_no_mortal

void* (*get_compile_type_name_no_mortal)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t type_dimension, int32_t type_flag);

Gets a new string object that is the compile-time type name with a basic type name, a type dimension, a type flag.

This function does not add the returned object to the mortal stack, so use the get_compile_type_name Native API for normal use to avoid memory leaks.

get_compile_type_name

void* (*get_compile_type_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t type_dimension, int32_t type_flag);

Gets a new string object that is the compile-time type name with a basic type name, a type dimension, a type flag.

get_spvm_version_string

const char* (*get_spvm_version_string)(SPVM_ENV* env, SPVM_VALUE* stack);

Returns the version string of the SPVM language.

get_spvm_version_number

double (*get_spvm_version_number)(SPVM_ENV* env, SPVM_VALUE* stack);

Returns the version number of the SPVM language.

get_version_string

const char* (*get_version_string)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type);

Returns the version string of a basic_type. The basic_type_id must be a valid basic type.

If the version string in the basic_type is not defined, returns NULL.

get_version_number

double (*get_version_number)(SPVM_ENV* env, SPVM_VALUE* stack, void* basic_type);

Returns the version number of a basic_type. The basic_type_id must be a valid basic type.

If the version string in the basic_type is not defined, returns -1.

call_method

int32_t (*call_method)(SPVM_ENV* env, SPVM_VALUE* stack, void* method, int32_t args_width);

Call a method by specifying the method address and the stack length of the argument. If an exception occurs in the method, The return value is 1. If not, return 0.

The return value of the method is set to stack[0].

If stack[0] is a value of an object type, the object is pushed to the mortal stack.

isa_by_name

int32_t (*isa_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* basic_type_name, int32_t type_dimension);

The feature is the same as the "isa", but the basic type name can be given. If the basic type name is not found, returns 0.

is_type_by_name

int32_t (*is_type_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* basic_type_name, int32_t type_dimension);

The feature is the same as the "is_type", but the basic type name can be given. If the basic type name is not found, returns 0.

new_stack_trace_raw_by_name

void* (*new_stack_trace_raw_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* exception, const char* basic_type_name, const char* method_name, int32_t line);

Creates a string object that represents a stack trace by adding the file and line the method is called to the end of the exception message.

new_stack_trace_by_name

void* (*new_stack_trace_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* exception, const char* basic_type_name, const char* method_name, int32_t line);

The same as "new_stack_trace_raw_by_name", and push the created object to the mortal stack.

new_object_array_raw_by_name

void* (*new_object_array_raw_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t length);

new_object_array_by_name

void* (*new_object_array_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t length);

new_muldim_array_raw_by_name

void* (*new_muldim_array_raw_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t element_dimension, int32_t length);

new_muldim_array_by_name

void* (*new_muldim_array_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t element_dimension, int32_t length);

new_mulnum_array_raw_by_name

void* (*new_mulnum_array_raw_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t length);

new_mulnum_array_by_name

void* (*new_mulnum_array_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, const char* basic_type_name, int32_t length);

get_field_object_defined_and_has_pointer_by_name

void* (*get_field_object_defined_and_has_pointer_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file_name, int32_t line);

get_field_object_ref

void** (*get_field_object_ref)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, void* field);

Gets the address of the value of a field of the object type.

The argument field must be a valid field object.

get_field_object_ref_by_name

void** (*get_field_object_ref_by_name)(SPVM_ENV* env, SPVM_VALUE* stack, void* object, const char* field_name, int32_t* error_id, const char* func_name, const char* file, int32_t line);

Gets the address of the value of a field of the object type by its basic type name of the object and field name.

If an excetpion is thrown because the field does not exist or other errors occur, the argument error_id is set to non-zero value. Otherwise set to 0.

check_stack_env

int32_t (*check_stack_env)(SPVM_ENV* env, SPVM_VALUE* stack);

If the env of the stack is equal to the env, returns 1. Otherwise returns 0.

assign_object

void (*assign_object)(SPVM_ENV* env, SPVM_VALUE* stack, void** ref, void* object);

Assigns an object object to the place referred by the reference ref.

say

void (*say)(SPVM_ENV* env, SPVM_VALUE* stack, void* string);

Prints a string and \n to stdout. This is the same operator as the say operator.

warn

void (*warn)(SPVM_ENV* env, SPVM_VALUE* stack, void* string, const char* class_dir, const char* class_rel_file, int32_t line);

Operates the warn operator.

spvm_stdin

FILE* (*spvm_stdin)(SPVM_ENV* env, SPVM_VALUE* stack);

Gets the standard input opened for SPVM.

spvm_stdout

FILE* (*spvm_stdout)(SPVM_ENV* env, SPVM_VALUE* stack);

Gets the standard output opened for SPVM.

spvm_stderr

FILE* (*spvm_stderr)(SPVM_ENV* env, SPVM_VALUE* stack);

Gets the standard error opened for SPVM.

Native API IDs

Native APIs have its IDs. These IDs are permanently same for the binary compatibility after the future release v1.0.

0 runtime
1 api
2 new_env,
3 free_env,
4 call_init_methods,
5 set_command_info_program_name,
6 set_command_info_argv,
7 set_command_info_base_time,
8 destroy_class_vars,
9 args_width,
10 get_object_basic_type,
11 get_object_basic_type_id,
12 get_object_basic_type_name,
13 get_object_type_dimension,
14 get_basic_type,
15 get_basic_type_by_name,
16 get_basic_type_by_id,
17 get_basic_type_id,
18 get_basic_type_id_by_name,
19 get_class_var,
20 get_class_var_byte,
21 get_class_var_short,
22 get_class_var_int,
23 get_class_var_long,
24 get_class_var_float,
25 get_class_var_double,
26 get_class_var_object,
27 get_class_var_string,
28 set_class_var_byte,
29 set_class_var_short,
30 set_class_var_int,
31 set_class_var_long,
32 set_class_var_float,
33 set_class_var_double,
34 set_class_var_object,
35 set_class_var_string,
36 get_class_var_object_ref,
37 get_class_var_byte_by_name,
38 get_class_var_short_by_name,
39 get_class_var_int_by_name,
40 get_class_var_long_by_name,
41 get_class_var_float_by_name,
42 get_class_var_double_by_name,
43 get_class_var_object_by_name,
44 get_class_var_string_by_name,
45 set_class_var_byte_by_name,
46 set_class_var_short_by_name,
47 set_class_var_int_by_name,
48 set_class_var_long_by_name,
49 set_class_var_float_by_name,
50 set_class_var_double_by_name,
51 set_class_var_object_by_name,
52 set_class_var_string_by_name,
53 get_field,
54 get_field_static,
55 get_field_byte,
56 get_field_short,
57 get_field_int,
58 get_field_long,
59 get_field_float,
60 get_field_double,
61 get_field_object,
62 get_field_string,
63 set_field_byte,
64 set_field_short,
65 set_field_int,
66 set_field_long,
67 set_field_float,
68 set_field_double,
69 set_field_object,
70 set_field_string,
71 get_field_byte_by_name,
72 get_field_short_by_name,
73 get_field_int_by_name,
74 get_field_long_by_name,
75 get_field_float_by_name,
76 get_field_double_by_name,
77 get_field_object_by_name,
78 get_field_string_by_name,
79 set_field_byte_by_name,
80 set_field_short_by_name,
81 set_field_int_by_name,
82 set_field_long_by_name,
83 set_field_float_by_name,
84 set_field_double_by_name,
85 set_field_object_by_name,
86 set_field_string_by_name,
87 get_field_string_chars_by_name,
88 get_method,
89 get_class_method,
90 get_instance_method_static,
91 get_instance_method,
92 call_method_no_mortal,
93 call_method,
94 call_class_method_by_name,
95 call_instance_method_static_by_name,
96 call_instance_method_by_name,
97 new_object_no_mortal,
98 new_object,
99 new_object_by_name,
100 new_pointer_object_no_mortal,
101 new_pointer_object,
102 new_pointer_object_by_name,
103 get_pointer,
104 set_pointer,
105 new_string_nolen_no_mortal,
106 new_string_nolen,
107 new_string_no_mortal,
108 new_string,
109 new_byte_array_no_mortal,
110 new_byte_array,
111 new_short_array_no_mortal,
112 new_short_array,
113 new_int_array_no_mortal,
114 new_int_array,
115 new_long_array_no_mortal,
116 new_long_array,
117 new_float_array_no_mortal,
118 new_float_array,
119 new_double_array_no_mortal,
120 new_double_array,
121 new_object_array_no_mortal,
122 new_object_array,
123 new_object_array_by_name,
124 new_string_array,
125 new_muldim_array_no_mortal,
126 new_muldim_array,
127 new_muldim_array_by_name,
128 new_mulnum_array_no_mortal,
129 new_mulnum_array,
130 new_mulnum_array_by_name,
131 new_array_proto_no_mortal,
132 new_array_proto,
133 length,
134 get_elems_byte,
135 get_elems_short,
136 get_elems_int,
137 get_elems_long,
138 get_elems_float,
139 get_elems_double,
140 get_elem_object,
141 get_elem_string,
142 set_elem_object,
143 set_elem_string,
144 get_chars,
145 get_bool_object_value,
146 concat_no_mortal,
147 concat,
148 shorten,
149 make_read_only,
150 is_read_only,
151 print,
152 print_stderr,
153 dump_no_mortal,
154 dump,
155 dumpc,
156 copy_no_mortal,
157 copy,
158 get_spvm_version_string,
159 get_spvm_version_number,
160 get_version_string,
161 get_version_number,
162 die,
163 get_exception,
164 set_exception,
165 new_stack_trace_no_mortal,
166 new_stack_trace,
167 is_string,
168 is_class,
169 is_pointer_class,
170 is_array,
171 is_object_array,
172 is_numeric_array,
173 is_mulnum_array,
174 isa,
175 isa_by_name,
176 is_type,
177 is_type_by_name,
178 elem_isa,
179 get_elem_size,
180 get_type_name_no_mortal,
181 get_type_name,
182 get_compile_type_name_no_mortal,
183 get_compile_type_name,
184 enter_scope,
185 leave_scope,
186 push_mortal,
187 weaken,
188 isweak,
189 unweaken,
190 strerror_string,
191 strerror_string_nolen,
192 strerror,
193 strerror_nolen,
194 reserved194,
195 reserved195,
196 new_stack,
197 free_stack,
198 get_field_object_defined_and_has_pointer_by_name,
199 get_field_object_ref,
200 get_field_object_ref_by_name,
201 check_stack_env,
202 assign_object,
203 new_string_array_no_mortal,
204 new_memory_block,
205 free_memory_block,
206 get_memory_blocks_count,
207 say,
208 warn,
209 spvm_stdin,
210 spvm_stdout,
211 spvm_stderr,

Constant Values

Basic Type IDs

IDNameDescription
0SPVM_NATIVE_C_BASIC_TYPE_ID_UNKNOWNThe basic type ID for unknown types
1SPVM_NATIVE_C_BASIC_TYPE_ID_UNDEFThe basic type ID of the undef type
2SPVM_NATIVE_C_BASIC_TYPE_ID_VOIDThe basic type ID of the void type
3SPVM_NATIVE_C_BASIC_TYPE_ID_BYTEThe basic type ID of the byte type
4SPVM_NATIVE_C_BASIC_TYPE_ID_SHORTThe basic type ID of the short type
5SPVM_NATIVE_C_BASIC_TYPE_ID_INTThe basic type ID of the int type
6SPVM_NATIVE_C_BASIC_TYPE_ID_LONGThe basic type ID of the long type
7SPVM_NATIVE_C_BASIC_TYPE_ID_FLOATThe basic type ID of the float type
8SPVM_NATIVE_C_BASIC_TYPE_ID_DOUBLEThe basic type ID of the double type
9SPVM_NATIVE_C_BASIC_TYPE_ID_STRINGThe basic type ID of the string type
10SPVM_NATIVE_C_BASIC_TYPE_ID_ANY_OBJECTThe basic type ID of the any object type
11SPVM_NATIVE_C_BASIC_TYPE_ID_BYTE_CLASSThe basic type ID of the Byte class
12SPVM_NATIVE_C_BASIC_TYPE_ID_SHORT_CLASSThe basic type ID of the Short class
13SPVM_NATIVE_C_BASIC_TYPE_ID_INT_CLASSThe basic type ID of the Int class
14SPVM_NATIVE_C_BASIC_TYPE_ID_LONG_CLASSThe basic type ID of the Long class
15SPVM_NATIVE_C_BASIC_TYPE_ID_FLOAT_CLASSThe basic type ID of the Float class
16SPVM_NATIVE_C_BASIC_TYPE_ID_DOUBLE_CLASSThe basic type ID of the Double class
17SPVM_NATIVE_C_BASIC_TYPE_ID_BOOL_CLASSThe basic type ID of the Bool class
18SPVM_NATIVE_C_BASIC_TYPE_ID_ERROR_CLASSThe basic type ID of the Error class
19SPVM_NATIVE_C_BASIC_TYPE_ID_ERROR_SYSTEM_CLASSThe basic type ID of the Error::System class
20SPVM_NATIVE_C_BASIC_TYPE_ID_ERROR_NOT_SUPPORTED_CLASSThe basic type ID of the Error::NotSupported class
21SPVM_NATIVE_C_BASIC_TYPE_ID_COMMAND_INFO_CLASSThe basic type ID of the CommandInfo class
22SPVM_NATIVE_C_BASIC_TYPE_ID_ADDRESS_CLASSThe basic type ID of the Address class
23SPVM_NATIVE_C_BASIC_TYPE_ID_ERROR_COMPILE_CLASSThe basic type ID of the Error::Compile class

Basic Type Category IDs

IDNameDescription
0SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_UNKNOWNThe basic type category for unknown types
1SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_UNDEFThe basic type category for the undef type
2SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_VOIDThe basic type category for the void type
3SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_NUMERICThe basic type category for numeric types
4SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_MULNUMThe basic type category for multi-numeric types
5SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_STRINGThe basic type category for the string type
6SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_CLASSThe basic type category for class types
7SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_INTERFACEThe basic type category for interface types
8SPVM_NATIVE_C_BASIC_TYPE_CATEGORY_ANY_OBJECTThe basic type category for the any object type

Type Flag IDs

IDNameDescription
1SPVM_NATIVE_C_TYPE_FLAG_REFA flag indicating that it is a reference type
2SPVM_NATIVE_C_TYPE_FLAG_MUTABLEA flag indicating that a mutable modifier is present

SPVM_NATIVE_VERSION_NUMBER

The version number of the SPVM language.

Examples:

// 0.989062
double spvm_version_number = SPVM_NATIVE_VERSION_NUMBER;

SPVM_NATIVE_VERSION_STRING

The version string of the SPVM language. This is a string constant.

Examples:

// "0.989062"
const char* spvm_version_string = SPVM_NATIVE_VERSION_STRING;

Macro Functions

spvm_warn

#define spvm_warn(format, ...)

Prints the formatted message format to stderr with a new line.

format must be the char* type.

Examples:

spvm_warn("Hello");
spvm_warn("Hello %s%d", "Foo", 3);

spvm_warnf

#define spvm_warnf(stream, format, ...)

Prints the formatted message format to the stream stream with a new line.

format must be the char* type.

stream must be the FILE type.

Examples:

spvm_warnf(env->spvm_stderr(env, stack), "Hello");
spvm_warnf(env->spvm_stderr(env, stack), "Hello %s%d", "Foo", 3);

SPVM_NATIVE_GET_POINTER

#define SPVM_NATIVE_GET_POINTER(object)

Gets the pointer stored in the object object and returns it. The return type is the void* type.

SPVM_NATIVE_SET_POINTER

#define SPVM_NATIVE_SET_POINTER(object, pointer)

Sets the pointer pointer in the object object.

Examples

Copyright & License

Copyright (c) 2023 Yuki Kimoto

MIT License