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/*
* Copyright (c) 2017 Cesanta Software Limited
* All rights reserved
*
* This software is dual-licensed: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation. For the terms of this
* license, see <http://www.gnu.org/licenses/>.
*
* You are free to use this software under the terms of the GNU General
* Public License, but WITHOUT ANY WARRANTY; without even the implied
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* Alternatively, you can license this software under a commercial
* license, as set out in <https://www.cesanta.com/license>.
*/
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_features.h"
#endif
#ifndef MJS_FEATURES_H_
#define MJS_FEATURES_H_
#if !defined(MJS_AGGRESSIVE_GC)
#define MJS_AGGRESSIVE_GC 0
#endif
#if !defined(MJS_MEMORY_STATS)
#define MJS_MEMORY_STATS 0
#endif
/*
* MJS_GENERATE_JSC: if enabled, and if mmapping is also enabled (CS_MMAP),
* then execution of any .js file will result in creation of a .jsc file with
* precompiled bcode, and this .jsc file will be mmapped, instead of keeping
* bcode in RAM.
*
* By default it's enabled (provided that CS_MMAP is defined)
*/
#if !defined(MJS_GENERATE_JSC)
#if defined(CS_MMAP)
#define MJS_GENERATE_JSC 1
#else
#define MJS_GENERATE_JSC 0
#endif
#endif
#endif /* MJS_FEATURES_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_core_public.h"
#endif
#ifndef MJS_CORE_PUBLIC_H_
#define MJS_CORE_PUBLIC_H_
#if !defined(_MSC_VER) || _MSC_VER >= 1700
#include <stdint.h>
#else
typedef unsigned __int64 uint64_t;
typedef int int32_t;
typedef unsigned char uint8_t;
#endif
#include <stdio.h>
#include <stddef.h>
/* Amalgamated: #include "mjs_features.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
#ifndef MJS_ENABLE_DEBUG
#define MJS_ENABLE_DEBUG 0
#endif
/*
* Double-precision floating-point number, IEEE 754
*
* 64 bit (8 bytes) in total
* 1 bit sign
* 11 bits exponent
* 52 bits mantissa
* 7 6 5 4 3 2 1 0
* seeeeeee|eeeemmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm
*
* If an exponent is all-1 and mantissa is all-0, then it is an INFINITY:
* 11111111|11110000|00000000|00000000|00000000|00000000|00000000|00000000
*
* If an exponent is all-1 and mantissa's MSB is 1, it is a quiet NaN:
* 11111111|11111000|00000000|00000000|00000000|00000000|00000000|00000000
*
* MJS NaN-packing:
* sign and exponent is 0xfff
* 4 bits specify type (tag), must be non-zero
* 48 bits specify value
*
* 11111111|1111tttt|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv
* NaN marker |type| 48-bit placeholder for values: pointers, strings
*
* On 64-bit platforms, pointers are really 48 bit only, so they can fit,
* provided they are sign extended
*/
typedef uint64_t mjs_val_t;
/* This if-0 is a dirty workaround to force etags to pick `struct mjs` */
#if 0
/* Opaque structure. MJS engine context. */
struct mjs {
/* ... */
};
#endif
struct mjs;
typedef enum mjs_err {
MJS_OK,
MJS_SYNTAX_ERROR,
MJS_REFERENCE_ERROR,
MJS_TYPE_ERROR,
MJS_OUT_OF_MEMORY,
MJS_INTERNAL_ERROR,
MJS_NOT_IMPLEMENTED_ERROR,
MJS_FILE_READ_ERROR,
MJS_BAD_ARGS_ERROR,
MJS_ERRS_CNT
} mjs_err_t;
struct mjs;
/* Create MJS instance */
struct mjs *mjs_create();
struct mjs_create_opts {
/* use non-default bytecode definition file, testing-only */
const struct bf_code *code;
};
/*
* Like `msj_create()`, but allows to customize initial MJS state, see `struct
* mjs_create_opts`.
*/
struct mjs *mjs_create_opt(struct mjs_create_opts opts);
/* Destroy MJS instance */
void mjs_destroy(struct mjs *mjs);
mjs_val_t mjs_get_global(struct mjs *mjs);
/*
* Tells the GC about an MJS value variable/field owned by C code.
*
* The user's C code should own mjs_val_t variables if the value's lifetime
* crosses any invocation of `mjs_exec()` and friends, including `mjs_call()`.
*
* The registration of the variable prevents the GC from mistakenly treat the
* object as garbage.
*
* User code should also explicitly disown the variables with `mjs_disown()`
* once it goes out of scope or the structure containing the mjs_val_t field is
* freed.
*
* Consider the following examples:
*
* Correct (owning is not necessary):
* ```c
* mjs_val_t res;
* mjs_exec(mjs, "....some script", &res);
* // ... use res somehow
*
* mjs_val_t res;
* mjs_exec(mjs, "....some script2", &res);
* // ... use new res somehow
* ```
*
* WRONG:
* ```c
* mjs_val_t res1;
* mjs_exec(mjs, "....some script", &res1);
*
* mjs_val_t res2;
* mjs_exec(mjs, "....some script2", &res2);
*
* // ... use res1 (WRONG!) and res2
* ```
*
* The code above is wrong, because after the second invocation of
* `mjs_exec()`, the value of `res1` is invalidated.
*
* Correct (res1 is owned)
* ```c
* mjs_val_t res1 = MJS_UNDEFINED;
* mjs_own(mjs, &res1);
* mjs_exec(mjs, "....some script", &res1);
*
* mjs_val_t res2 = MJS_UNDEFINED;
* mjs_exec(mjs, "....some script2", &res2);
*
* // ... use res1 and res2
* mjs_disown(mjs, &res1);
* ```
*
* NOTE that we explicly initialized `res1` to a valid value before owning it
* (in this case, the value is `MJS_UNDEFINED`). Owning an uninitialized
* variable is an undefined behaviour.
*
* Of course, it's not an error to own a variable even if it's not mandatory:
* e.g. in the last example we could own both `res1` and `res2`. Probably it
* would help us in the future, when we refactor the code so that `res2` has to
* be owned, and we could forget to do that.
*
* Also, if the user code has some C function called from MJS, and in this C
* function some MJS value (`mjs_val_t`) needs to be stored somewhere and to
* stay alive after the C function has returned, it also needs to be properly
* owned.
*/
void mjs_own(struct mjs *mjs, mjs_val_t *v);
/*
* Disowns the value previously owned by `mjs_own()`.
*
* Returns 1 if value is found, 0 otherwise.
*/
int mjs_disown(struct mjs *mjs, mjs_val_t *v);
mjs_err_t mjs_set_errorf(struct mjs *mjs, mjs_err_t err, const char *fmt, ...);
/*
* If there is no error message already set, then it's equal to
* `mjs_set_errorf()`.
*
* Otherwise, an old message gets prepended with the new one, followed by a
* colon. (the previously set error code is kept)
*/
mjs_err_t mjs_prepend_errorf(struct mjs *mjs, mjs_err_t err, const char *fmt,
...);
/*
* Print the last error details. If print_stack_trace is non-zero, also
* print stack trace. `msg` is the message which gets prepended to the actual
* error message, if it's NULL, then "MJS error" is used.
*/
void mjs_print_error(struct mjs *mjs, FILE *fp, const char *msg,
int print_stack_trace);
/*
* return a string representation of an error.
* the error string might be overwritten by calls to `mjs_set_errorf`.
*/
const char *mjs_strerror(struct mjs *mjs, enum mjs_err err);
/*
* Sets whether *.jsc files are generated when *.js file is executed. By
* default it's 0.
*
* If either `MJS_GENERATE_JSC` or `CS_MMAP` is off, then this function has no
* effect.
*/
void mjs_set_generate_jsc(struct mjs *mjs, int generate_jsc);
/*
* When invoked from a cfunction, returns number of arguments passed to the
* current JS function call.
*/
int mjs_nargs(struct mjs *mjs);
/*
* When invoked from a cfunction, returns n-th argument to the current JS
* function call.
*/
mjs_val_t mjs_arg(struct mjs *mjs, int n);
/*
* Sets return value for the current JS function call.
*/
void mjs_return(struct mjs *mjs, mjs_val_t v);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_CORE_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_ffi_public.h"
#endif
#ifndef MJS_FFI_PUBLIC_H_
#define MJS_FFI_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
enum mjs_ffi_ctype {
MJS_FFI_CTYPE_NONE,
MJS_FFI_CTYPE_USERDATA,
MJS_FFI_CTYPE_CALLBACK,
MJS_FFI_CTYPE_INT,
MJS_FFI_CTYPE_BOOL,
MJS_FFI_CTYPE_DOUBLE,
MJS_FFI_CTYPE_FLOAT,
MJS_FFI_CTYPE_CHAR_PTR,
MJS_FFI_CTYPE_VOID_PTR,
MJS_FFI_CTYPE_STRUCT_MG_STR_PTR,
MJS_FFI_CTYPE_STRUCT_MG_STR,
MJS_FFI_CTYPE_INVALID,
};
typedef void *(mjs_ffi_resolver_t)(void *handle, const char *symbol);
void mjs_set_ffi_resolver(struct mjs *mjs, mjs_ffi_resolver_t *dlsym);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_FFI_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_array_public.h"
#endif
/*
* === Arrays
*/
#ifndef MJS_ARRAY_PUBLIC_H_
#define MJS_ARRAY_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/* Make an empty array object */
mjs_val_t mjs_mk_array(struct mjs *mjs);
/* Returns length on an array. If `arr` is not an array, 0 is returned. */
unsigned long mjs_array_length(struct mjs *mjs, mjs_val_t arr);
/* Insert value `v` in array `arr` at the end of the array. */
mjs_err_t mjs_array_push(struct mjs *mjs, mjs_val_t arr, mjs_val_t v);
/*
* Return array member at index `index`. If `index` is out of bounds, undefined
* is returned.
*/
mjs_val_t mjs_array_get(struct mjs *, mjs_val_t arr, unsigned long index);
/* Insert value `v` into `arr` at index `index`. */
mjs_err_t mjs_array_set(struct mjs *mjs, mjs_val_t arr, unsigned long index,
mjs_val_t v);
/* Returns true if the given value is an array */
int mjs_is_array(mjs_val_t v);
/* Delete value in array `arr` at index `index`, if it exists. */
void mjs_array_del(struct mjs *mjs, mjs_val_t arr, unsigned long index);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_ARRAY_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_core_public.h"
#endif
#ifndef MJS_CORE_PUBLIC_H_
#define MJS_CORE_PUBLIC_H_
#if !defined(_MSC_VER) || _MSC_VER >= 1700
#include <stdint.h>
#else
typedef unsigned __int64 uint64_t;
typedef int int32_t;
typedef unsigned char uint8_t;
#endif
#include <stdio.h>
#include <stddef.h>
/* Amalgamated: #include "mjs_features.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
#ifndef MJS_ENABLE_DEBUG
#define MJS_ENABLE_DEBUG 0
#endif
/*
* Double-precision floating-point number, IEEE 754
*
* 64 bit (8 bytes) in total
* 1 bit sign
* 11 bits exponent
* 52 bits mantissa
* 7 6 5 4 3 2 1 0
* seeeeeee|eeeemmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm|mmmmmmmm
*
* If an exponent is all-1 and mantissa is all-0, then it is an INFINITY:
* 11111111|11110000|00000000|00000000|00000000|00000000|00000000|00000000
*
* If an exponent is all-1 and mantissa's MSB is 1, it is a quiet NaN:
* 11111111|11111000|00000000|00000000|00000000|00000000|00000000|00000000
*
* MJS NaN-packing:
* sign and exponent is 0xfff
* 4 bits specify type (tag), must be non-zero
* 48 bits specify value
*
* 11111111|1111tttt|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv|vvvvvvvv
* NaN marker |type| 48-bit placeholder for values: pointers, strings
*
* On 64-bit platforms, pointers are really 48 bit only, so they can fit,
* provided they are sign extended
*/
typedef uint64_t mjs_val_t;
/* This if-0 is a dirty workaround to force etags to pick `struct mjs` */
#if 0
/* Opaque structure. MJS engine context. */
struct mjs {
/* ... */
};
#endif
struct mjs;
typedef enum mjs_err {
MJS_OK,
MJS_SYNTAX_ERROR,
MJS_REFERENCE_ERROR,
MJS_TYPE_ERROR,
MJS_OUT_OF_MEMORY,
MJS_INTERNAL_ERROR,
MJS_NOT_IMPLEMENTED_ERROR,
MJS_FILE_READ_ERROR,
MJS_BAD_ARGS_ERROR,
MJS_ERRS_CNT
} mjs_err_t;
struct mjs;
/* Create MJS instance */
struct mjs *mjs_create();
struct mjs_create_opts {
/* use non-default bytecode definition file, testing-only */
const struct bf_code *code;
};
/*
* Like `msj_create()`, but allows to customize initial MJS state, see `struct
* mjs_create_opts`.
*/
struct mjs *mjs_create_opt(struct mjs_create_opts opts);
/* Destroy MJS instance */
void mjs_destroy(struct mjs *mjs);
mjs_val_t mjs_get_global(struct mjs *mjs);
/*
* Tells the GC about an MJS value variable/field owned by C code.
*
* The user's C code should own mjs_val_t variables if the value's lifetime
* crosses any invocation of `mjs_exec()` and friends, including `mjs_call()`.
*
* The registration of the variable prevents the GC from mistakenly treat the
* object as garbage.
*
* User code should also explicitly disown the variables with `mjs_disown()`
* once it goes out of scope or the structure containing the mjs_val_t field is
* freed.
*
* Consider the following examples:
*
* Correct (owning is not necessary):
* ```c
* mjs_val_t res;
* mjs_exec(mjs, "....some script", &res);
* // ... use res somehow
*
* mjs_val_t res;
* mjs_exec(mjs, "....some script2", &res);
* // ... use new res somehow
* ```
*
* WRONG:
* ```c
* mjs_val_t res1;
* mjs_exec(mjs, "....some script", &res1);
*
* mjs_val_t res2;
* mjs_exec(mjs, "....some script2", &res2);
*
* // ... use res1 (WRONG!) and res2
* ```
*
* The code above is wrong, because after the second invocation of
* `mjs_exec()`, the value of `res1` is invalidated.
*
* Correct (res1 is owned)
* ```c
* mjs_val_t res1 = MJS_UNDEFINED;
* mjs_own(mjs, &res1);
* mjs_exec(mjs, "....some script", &res1);
*
* mjs_val_t res2 = MJS_UNDEFINED;
* mjs_exec(mjs, "....some script2", &res2);
*
* // ... use res1 and res2
* mjs_disown(mjs, &res1);
* ```
*
* NOTE that we explicly initialized `res1` to a valid value before owning it
* (in this case, the value is `MJS_UNDEFINED`). Owning an uninitialized
* variable is an undefined behaviour.
*
* Of course, it's not an error to own a variable even if it's not mandatory:
* e.g. in the last example we could own both `res1` and `res2`. Probably it
* would help us in the future, when we refactor the code so that `res2` has to
* be owned, and we could forget to do that.
*
* Also, if the user code has some C function called from MJS, and in this C
* function some MJS value (`mjs_val_t`) needs to be stored somewhere and to
* stay alive after the C function has returned, it also needs to be properly
* owned.
*/
void mjs_own(struct mjs *mjs, mjs_val_t *v);
/*
* Disowns the value previously owned by `mjs_own()`.
*
* Returns 1 if value is found, 0 otherwise.
*/
int mjs_disown(struct mjs *mjs, mjs_val_t *v);
mjs_err_t mjs_set_errorf(struct mjs *mjs, mjs_err_t err, const char *fmt, ...);
/*
* If there is no error message already set, then it's equal to
* `mjs_set_errorf()`.
*
* Otherwise, an old message gets prepended with the new one, followed by a
* colon. (the previously set error code is kept)
*/
mjs_err_t mjs_prepend_errorf(struct mjs *mjs, mjs_err_t err, const char *fmt,
...);
/*
* Print the last error details. If print_stack_trace is non-zero, also
* print stack trace. `msg` is the message which gets prepended to the actual
* error message, if it's NULL, then "MJS error" is used.
*/
void mjs_print_error(struct mjs *mjs, FILE *fp, const char *msg,
int print_stack_trace);
/*
* return a string representation of an error.
* the error string might be overwritten by calls to `mjs_set_errorf`.
*/
const char *mjs_strerror(struct mjs *mjs, enum mjs_err err);
/*
* Sets whether *.jsc files are generated when *.js file is executed. By
* default it's 0.
*
* If either `MJS_GENERATE_JSC` or `CS_MMAP` is off, then this function has no
* effect.
*/
void mjs_set_generate_jsc(struct mjs *mjs, int generate_jsc);
/*
* When invoked from a cfunction, returns number of arguments passed to the
* current JS function call.
*/
int mjs_nargs(struct mjs *mjs);
/*
* When invoked from a cfunction, returns n-th argument to the current JS
* function call.
*/
mjs_val_t mjs_arg(struct mjs *mjs, int n);
/*
* Sets return value for the current JS function call.
*/
void mjs_return(struct mjs *mjs, mjs_val_t v);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_CORE_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_exec_public.h"
#endif
#ifndef MJS_EXEC_PUBLIC_H_
#define MJS_EXEC_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#include <stdio.h>
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
mjs_err_t mjs_exec(struct mjs *, const char *src, mjs_val_t *res);
mjs_err_t mjs_exec_buf(struct mjs *, const char *src, size_t, mjs_val_t *res);
mjs_err_t mjs_exec_file(struct mjs *mjs, const char *path, mjs_val_t *res);
mjs_err_t mjs_apply(struct mjs *mjs, mjs_val_t *res, mjs_val_t func,
mjs_val_t this_val, int nargs, mjs_val_t *args);
mjs_err_t mjs_call(struct mjs *mjs, mjs_val_t *res, mjs_val_t func,
mjs_val_t this_val, int nargs, ...);
mjs_val_t mjs_get_this(struct mjs *mjs);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_EXEC_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_ffi_public.h"
#endif
#ifndef MJS_FFI_PUBLIC_H_
#define MJS_FFI_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
enum mjs_ffi_ctype {
MJS_FFI_CTYPE_NONE,
MJS_FFI_CTYPE_USERDATA,
MJS_FFI_CTYPE_CALLBACK,
MJS_FFI_CTYPE_INT,
MJS_FFI_CTYPE_BOOL,
MJS_FFI_CTYPE_DOUBLE,
MJS_FFI_CTYPE_FLOAT,
MJS_FFI_CTYPE_CHAR_PTR,
MJS_FFI_CTYPE_VOID_PTR,
MJS_FFI_CTYPE_STRUCT_MG_STR_PTR,
MJS_FFI_CTYPE_STRUCT_MG_STR,
MJS_FFI_CTYPE_INVALID,
};
typedef void *(mjs_ffi_resolver_t)(void *handle, const char *symbol);
void mjs_set_ffi_resolver(struct mjs *mjs, mjs_ffi_resolver_t *dlsym);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_FFI_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_gc_public.h"
#endif
#ifndef MJS_GC_PUBLIC_H_
#define MJS_GC_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/*
* Perform garbage collection.
* Pass true to full in order to reclaim unused heap back to the OS.
*/
void mjs_gc(struct mjs *mjs, int full);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_GC_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_object_public.h"
#endif
#ifndef MJS_OBJECT_PUBLIC_H_
#define MJS_OBJECT_PUBLIC_H_
#include <stddef.h>
/* Amalgamated: #include "mjs_core_public.h" */
/* Amalgamated: #include "mjs_ffi_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/*
* Returns true if the given value is an object or array.
*/
int mjs_is_object(mjs_val_t v);
/* Make an empty object */
mjs_val_t mjs_mk_object(struct mjs *mjs);
/* Field types for struct-object conversion. */
enum mjs_struct_field_type {
MJS_STRUCT_FIELD_TYPE_INVALID,
MJS_STRUCT_FIELD_TYPE_STRUCT, /* Struct, arg points to def. */
MJS_STRUCT_FIELD_TYPE_STRUCT_PTR, /* Ptr to struct, arg points to def. */
MJS_STRUCT_FIELD_TYPE_INT,
MJS_STRUCT_FIELD_TYPE_BOOL,
MJS_STRUCT_FIELD_TYPE_DOUBLE,
MJS_STRUCT_FIELD_TYPE_FLOAT,
MJS_STRUCT_FIELD_TYPE_CHAR_PTR, /* NUL-terminated string. */
MJS_STRUCT_FIELD_TYPE_VOID_PTR, /* Converted to foreign ptr. */
MJS_STRUCT_FIELD_TYPE_MG_STR_PTR, /* Converted to string. */
MJS_STRUCT_FIELD_TYPE_MG_STR, /* Converted to string. */
MJS_STRUCT_FIELD_TYPE_DATA, /* Data, arg is length, becomes string. */
MJS_STRUCT_FIELD_TYPE_INT8,
MJS_STRUCT_FIELD_TYPE_INT16,
MJS_STRUCT_FIELD_TYPE_UINT8,
MJS_STRUCT_FIELD_TYPE_UINT16,
/*
* User-provided function. Arg is a pointer to function that takes void *
* (pointer to field within the struct) and returns mjs_val_t:
* mjs_val_t field_value(struct mjs *mjs, const void *field_ptr) { ... }
*/
MJS_STRUCT_FIELD_TYPE_CUSTOM,
};
/* C structure layout descriptor - needed by mjs_struct_to_obj */
struct mjs_c_struct_member {
const char *name;
int offset;
enum mjs_struct_field_type type;
const void *arg; /* Additional argument, used for some types. */
};
/* Create flat JS object from a C memory descriptor */
mjs_val_t mjs_struct_to_obj(struct mjs *mjs, const void *base,
const struct mjs_c_struct_member *members);
/*
* Lookup property `name` in object `obj`. If `obj` holds no such property,
* an `undefined` value is returned.
*
* If `name_len` is ~0, `name` is assumed to be NUL-terminated and
* `strlen(name)` is used.
*/
mjs_val_t mjs_get(struct mjs *mjs, mjs_val_t obj, const char *name,
size_t name_len);
/*
* Like mjs_get but with a JS string.
*/
mjs_val_t mjs_get_v(struct mjs *mjs, mjs_val_t obj, mjs_val_t name);
/*
* Like mjs_get_v but lookup the prototype chain.
*/
mjs_val_t mjs_get_v_proto(struct mjs *mjs, mjs_val_t obj, mjs_val_t key);
/*
* Set object property. Behaves just like JavaScript assignment.
*/
mjs_err_t mjs_set(struct mjs *mjs, mjs_val_t obj, const char *name, size_t len,
mjs_val_t val);
/*
* Like mjs_set but the name is already a JS string.
*/
mjs_err_t mjs_set_v(struct mjs *mjs, mjs_val_t obj, mjs_val_t name,
mjs_val_t val);
/*
* Delete own property `name` of the object `obj`. Does not follow the
* prototype chain.
*
* If `name_len` is ~0, `name` is assumed to be NUL-terminated and
* `strlen(name)` is used.
*
* Returns 0 on success, -1 on error.
*/
int mjs_del(struct mjs *mjs, mjs_val_t obj, const char *name, size_t len);
/*
* Iterate over `obj` properties.
* First call should set `iterator` to MJS_UNDEFINED.
* Return object's key (a string), or MJS_UNDEFINED when no more keys left.
* Do not mutate the object during iteration.
*
* Example:
* mjs_val_t key, iter = MJS_UNDEFINED;
* while ((key = mjs_next(mjs, obj, &iter)) != MJS_UNDEFINED) {
* // Do something with the obj/key ...
* }
*/
mjs_val_t mjs_next(struct mjs *mjs, mjs_val_t obj, mjs_val_t *iterator);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_OBJECT_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_primitive_public.h"
#endif
#ifndef MJS_PRIMITIVE_PUBLIC_H_
#define MJS_PRIMITIVE_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/* JavaScript `null` value */
#define MJS_NULL MJS_TAG_NULL
/* JavaScript `undefined` value */
#define MJS_UNDEFINED MJS_TAG_UNDEFINED
/* Function pointer type used in `mjs_mk_foreign_func`. */
typedef void (*mjs_func_ptr_t)(void);
/*
* Make `null` primitive value.
*
* NOTE: this function is deprecated and will be removed in future releases.
* Use `MJS_NULL` instead.
*/
mjs_val_t mjs_mk_null(void);
/* Returns true if given value is a primitive `null` value */
int mjs_is_null(mjs_val_t v);
/*
* Make `undefined` primitive value.
*
* NOTE: this function is deprecated and will be removed in future releases.
* Use `MJS_UNDEFINED` instead.
*/
mjs_val_t mjs_mk_undefined(void);
/* Returns true if given value is a primitive `undefined` value */
int mjs_is_undefined(mjs_val_t v);
/* Make numeric primitive value */
mjs_val_t mjs_mk_number(struct mjs *mjs, double num);
/*
* Returns number value stored in `mjs_val_t` as `double`.
*
* Returns NaN for non-numbers.
*/
double mjs_get_double(struct mjs *mjs, mjs_val_t v);
/*
* Returns number value stored in `mjs_val_t` as `int`. If the number value is
* not an integer, the fraction part will be discarded.
*
* If the given value is a non-number, or NaN, the result is undefined.
*/
int mjs_get_int(struct mjs *mjs, mjs_val_t v);
/*
* Like mjs_get_int but ensures that the returned type
* is a 32-bit signed integer.
*/
int32_t mjs_get_int32(struct mjs *mjs, mjs_val_t v);
/* Returns true if given value is a primitive number value */
int mjs_is_number(mjs_val_t v);
/*
* Make JavaScript value that holds C/C++ `void *` pointer.
*
* A foreign value is completely opaque and JS code cannot do anything useful
* with it except holding it in properties and passing it around.
* It behaves like a sealed object with no properties.
*
* NOTE:
* Only valid pointers (as defined by each supported architecture) will fully
* preserved. In particular, all supported 64-bit architectures (x86_64, ARM-64)
* actually define a 48-bit virtual address space.
* Foreign values will be sign-extended as required, i.e creating a foreign
* value of something like `(void *) -1` will work as expected. This is
* important because in some 64-bit OSs (e.g. Solaris) the user stack grows
* downwards from the end of the address space.
*
* If you need to store exactly sizeof(void*) bytes of raw data where
* `sizeof(void*)` >= 8, please use byte arrays instead.
*/
mjs_val_t mjs_mk_foreign(struct mjs *mjs, void *ptr);
/*
* Make JavaScript value that holds C/C++ function pointer, similarly to
* `mjs_mk_foreign`.
*/
mjs_val_t mjs_mk_foreign_func(struct mjs *mjs, mjs_func_ptr_t fn);
/*
* Returns `void *` pointer stored in `mjs_val_t`.
*
* Returns NULL if the value is not a foreign pointer.
*/
void *mjs_get_ptr(struct mjs *mjs, mjs_val_t v);
/* Returns true if given value holds `void *` pointer */
int mjs_is_foreign(mjs_val_t v);
mjs_val_t mjs_mk_boolean(struct mjs *mjs, int v);
int mjs_get_bool(struct mjs *mjs, mjs_val_t v);
int mjs_is_boolean(mjs_val_t v);
mjs_val_t mjs_mk_function(struct mjs *mjs, size_t off);
int mjs_is_function(mjs_val_t v);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_PRIMITIVE_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_string_public.h"
#endif
#ifndef MJS_STRING_PUBLIC_H_
#define MJS_STRING_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#define MJS_STRING_LITERAL_MAX_LEN 128
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
/*
* Creates a string primitive value.
* `str` must point to the utf8 string of length `len`.
* If `len` is ~0, `str` is assumed to be NUL-terminated and `strlen(str)` is
* used.
*
* If `copy` is non-zero, the string data is copied and owned by the GC. The
* caller can free the string data afterwards. Otherwise (`copy` is zero), the
* caller owns the string data, and is responsible for not freeing it while it
* is used.
*/
mjs_val_t mjs_mk_string(struct mjs *mjs, const char *str, size_t len, int copy);
/* Returns true if given value is a primitive string value */
int mjs_is_string(mjs_val_t v);
/*
* Returns a pointer to the string stored in `mjs_val_t`.
*
* String length returned in `len`, which is allowed to be NULL. Returns NULL
* if the value is not a string.
*
* JS strings can contain embedded NUL chars and may or may not be NUL
* terminated.
*
* CAUTION: creating new JavaScript object, array, or string may kick in a
* garbage collector, which in turn may relocate string data and invalidate
* pointer returned by `mjs_get_string()`.
*
* Short JS strings are embedded inside the `mjs_val_t` value itself. This
* is why a pointer to a `mjs_val_t` is required. It also means that the string
* data will become invalid once that `mjs_val_t` value goes out of scope.
*/
const char *mjs_get_string(struct mjs *mjs, mjs_val_t *v, size_t *len);
/*
* Returns a pointer to the string stored in `mjs_val_t`.
*
* Returns NULL if the value is not a string or if the string is not compatible
* with a C string.
*
* C compatible strings contain exactly one NUL char, in terminal position.
*
* All strings owned by the MJS engine (see `mjs_mk_string()`) are guaranteed to
* be NUL terminated. Out of these, those that don't include embedded NUL chars
* are guaranteed to be C compatible.
*/
const char *mjs_get_cstring(struct mjs *mjs, mjs_val_t *v);
/*
* Returns the standard strcmp comparison code after comparing a JS string a
* with a possibly non null-terminated string b. NOTE: the strings are equal
* only if their length is equal, i.e. the len field doesn't imply strncmp
* behaviour.
*/
int mjs_strcmp(struct mjs *mjs, mjs_val_t *a, const char *b, size_t len);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_STRING_PUBLIC_H_ */
#ifdef MJS_MODULE_LINES
#line 1 "src/mjs_util_public.h"
#endif
#ifndef MJS_UTIL_PUBLIC_H_
#define MJS_UTIL_PUBLIC_H_
/* Amalgamated: #include "mjs_core_public.h" */
#include <stdio.h>
#if defined(__cplusplus)
extern "C" {
#endif /* __cplusplus */
const char *mjs_typeof(mjs_val_t v);
void mjs_fprintf(mjs_val_t v, struct mjs *mjs, FILE *fp);
void mjs_sprintf(mjs_val_t v, struct mjs *mjs, char *buf, size_t buflen);
#if MJS_ENABLE_DEBUG
void mjs_disasm(const uint8_t *code, size_t len);
void mjs_dump(struct mjs *mjs, int do_disasm);
#endif
/*
* Returns the filename corresponding to the given bcode offset.
*/
const char *mjs_get_bcode_filename_by_offset(struct mjs *mjs, int offset);
/*
* Returns the line number corresponding to the given bcode offset.
*/
int mjs_get_lineno_by_offset(struct mjs *mjs, int offset);
/*
* Returns bcode offset of the corresponding call frame cf_num, where 0 means
* the currently executing function, 1 means the first return address, etc.
*
* If given cf_num is too large, -1 is returned.
*/
int mjs_get_offset_by_call_frame_num(struct mjs *mjs, int cf_num);
#if defined(__cplusplus)
}
#endif /* __cplusplus */
#endif /* MJS_UTIL_PUBLIC_H_ */
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