mirror of
https://github.com/DarkFlippers/unleashed-firmware.git
synced 2025-12-12 04:34:43 +04:00
Merge remote-tracking branch 'OFW/dev' into dev
This commit is contained in:
MX
@@ -7,6 +7,10 @@
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#include <flipper_application/plugins/plugin_manager.h>
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#include <flipper_application/plugins/composite_resolver.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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#define PLUGIN_APP_ID "js"
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#define PLUGIN_API_VERSION 1
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@@ -65,226 +69,6 @@ typedef enum {
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JsForeignMagic_JsEventLoopContract,
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} JsForeignMagic;
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// Are you tired of your silly little JS+C glue code functions being 75%
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// argument validation code and 25% actual logic? Introducing: ASS (Argument
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// Schema for Scripts)! ASS is a set of macros that reduce the typical
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// boilerplate code of "check argument count, get arguments, validate arguments,
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// extract C values from arguments" down to just one line!
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/**
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* When passed as the second argument to `JS_FETCH_ARGS_OR_RETURN`, signifies
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* that the function requires exactly as many arguments as were specified.
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*/
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#define JS_EXACTLY ==
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/**
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* When passed as the second argument to `JS_FETCH_ARGS_OR_RETURN`, signifies
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* that the function requires at least as many arguments as were specified.
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*/
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#define JS_AT_LEAST >=
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typedef struct {
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const char* name;
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size_t value;
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} JsEnumMapping;
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#define JS_ENUM_MAP(var_name, ...) \
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static const JsEnumMapping var_name##_mapping[] = { \
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{NULL, sizeof(var_name)}, \
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__VA_ARGS__, \
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{NULL, 0}, \
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};
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typedef struct {
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const char* name;
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size_t offset;
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} JsObjectMapping;
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#define JS_OBJ_MAP(var_name, ...) \
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static const JsObjectMapping var_name##_mapping[] = { \
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__VA_ARGS__, \
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{NULL, 0}, \
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};
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typedef struct {
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void* out;
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int (*validator)(mjs_val_t);
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void (*converter)(struct mjs*, mjs_val_t*, void* out, const void* extra);
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const char* expected_type;
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bool (*extended_validator)(struct mjs*, mjs_val_t, const void* extra);
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const void* extra_data;
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} _js_arg_decl;
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static inline void _js_to_int32(struct mjs* mjs, mjs_val_t* in, void* out, const void* extra) {
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UNUSED(extra);
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*(int32_t*)out = mjs_get_int32(mjs, *in);
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}
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#define JS_ARG_INT32(out) ((_js_arg_decl){out, mjs_is_number, _js_to_int32, "number", NULL, NULL})
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static inline void _js_to_ptr(struct mjs* mjs, mjs_val_t* in, void* out, const void* extra) {
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UNUSED(extra);
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*(void**)out = mjs_get_ptr(mjs, *in);
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}
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#define JS_ARG_PTR(out) \
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((_js_arg_decl){out, mjs_is_foreign, _js_to_ptr, "opaque pointer", NULL, NULL})
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static inline void _js_to_string(struct mjs* mjs, mjs_val_t* in, void* out, const void* extra) {
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UNUSED(extra);
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*(const char**)out = mjs_get_string(mjs, in, NULL);
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}
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#define JS_ARG_STR(out) ((_js_arg_decl){out, mjs_is_string, _js_to_string, "string", NULL, NULL})
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static inline void _js_to_bool(struct mjs* mjs, mjs_val_t* in, void* out, const void* extra) {
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UNUSED(extra);
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*(bool*)out = !!mjs_get_bool(mjs, *in);
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}
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#define JS_ARG_BOOL(out) ((_js_arg_decl){out, mjs_is_boolean, _js_to_bool, "boolean", NULL, NULL})
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static inline void _js_passthrough(struct mjs* mjs, mjs_val_t* in, void* out, const void* extra) {
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UNUSED(extra);
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UNUSED(mjs);
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*(mjs_val_t*)out = *in;
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}
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#define JS_ARG_ANY(out) ((_js_arg_decl){out, NULL, _js_passthrough, "any", NULL, NULL})
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#define JS_ARG_OBJ(out) ((_js_arg_decl){out, mjs_is_object, _js_passthrough, "any", NULL, NULL})
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#define JS_ARG_FN(out) \
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((_js_arg_decl){out, mjs_is_function, _js_passthrough, "function", NULL, NULL})
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#define JS_ARG_ARR(out) ((_js_arg_decl){out, mjs_is_array, _js_passthrough, "array", NULL, NULL})
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static inline bool _js_validate_struct(struct mjs* mjs, mjs_val_t val, const void* extra) {
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JsForeignMagic expected_magic = (JsForeignMagic)(size_t)extra;
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JsForeignMagic struct_magic = *(JsForeignMagic*)mjs_get_ptr(mjs, val);
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return struct_magic == expected_magic;
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}
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#define JS_ARG_STRUCT(type, out) \
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((_js_arg_decl){ \
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out, \
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mjs_is_foreign, \
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_js_to_ptr, \
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#type, \
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_js_validate_struct, \
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(void*)JsForeignMagic##_##type})
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static inline bool _js_validate_obj_w_struct(struct mjs* mjs, mjs_val_t val, const void* extra) {
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JsForeignMagic expected_magic = (JsForeignMagic)(size_t)extra;
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JsForeignMagic struct_magic = *(JsForeignMagic*)JS_GET_INST(mjs, val);
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return struct_magic == expected_magic;
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}
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#define JS_ARG_OBJ_WITH_STRUCT(type, out) \
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((_js_arg_decl){ \
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out, \
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mjs_is_object, \
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_js_passthrough, \
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#type, \
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_js_validate_obj_w_struct, \
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(void*)JsForeignMagic##_##type})
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static inline bool _js_validate_enum(struct mjs* mjs, mjs_val_t val, const void* extra) {
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for(const JsEnumMapping* mapping = (JsEnumMapping*)extra + 1; mapping->name; mapping++)
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if(strcmp(mapping->name, mjs_get_string(mjs, &val, NULL)) == 0) return true;
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return false;
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}
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static inline void
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_js_convert_enum(struct mjs* mjs, mjs_val_t* val, void* out, const void* extra) {
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const JsEnumMapping* mapping = (JsEnumMapping*)extra;
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size_t size = mapping->value; // get enum size from first entry
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for(mapping++; mapping->name; mapping++) {
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if(strcmp(mapping->name, mjs_get_string(mjs, val, NULL)) == 0) {
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if(size == 1)
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*(uint8_t*)out = mapping->value;
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else if(size == 2)
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*(uint16_t*)out = mapping->value;
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else if(size == 4)
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*(uint32_t*)out = mapping->value;
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else if(size == 8)
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*(uint64_t*)out = mapping->value;
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return;
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}
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}
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// unreachable, thanks to _js_validate_enum
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}
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#define JS_ARG_ENUM(var_name, name) \
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((_js_arg_decl){ \
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&var_name, \
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mjs_is_string, \
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_js_convert_enum, \
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name " enum", \
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_js_validate_enum, \
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var_name##_mapping})
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static inline bool _js_validate_object(struct mjs* mjs, mjs_val_t val, const void* extra) {
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for(const JsObjectMapping* mapping = (JsObjectMapping*)extra; mapping->name; mapping++)
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if(mjs_get(mjs, val, mapping->name, ~0) == MJS_UNDEFINED) return false;
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return true;
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}
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static inline void
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_js_convert_object(struct mjs* mjs, mjs_val_t* val, void* out, const void* extra) {
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const JsObjectMapping* mapping = (JsObjectMapping*)extra;
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for(; mapping->name; mapping++) {
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mjs_val_t field_val = mjs_get(mjs, *val, mapping->name, ~0);
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*(mjs_val_t*)((uint8_t*)out + mapping->offset) = field_val;
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}
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}
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#define JS_ARG_OBJECT(var_name, name) \
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((_js_arg_decl){ \
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&var_name, \
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mjs_is_object, \
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_js_convert_object, \
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name " object", \
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_js_validate_object, \
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var_name##_mapping})
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/**
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* @brief Validates and converts a JS value with a declarative interface
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*
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* Example: `int32_t my_value; JS_CONVERT_OR_RETURN(mjs, &mjs_val, JS_ARG_INT32(&my_value), "value source");`
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*
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* @warning This macro executes `return;` by design in case of a validation failure
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*/
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#define JS_CONVERT_OR_RETURN(mjs, value, decl, source, ...) \
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if(decl.validator) \
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if(!decl.validator(*value)) \
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JS_ERROR_AND_RETURN( \
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mjs, \
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MJS_BAD_ARGS_ERROR, \
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source ": expected %s", \
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##__VA_ARGS__, \
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decl.expected_type); \
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if(decl.extended_validator) \
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if(!decl.extended_validator(mjs, *value, decl.extra_data)) \
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JS_ERROR_AND_RETURN( \
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mjs, \
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MJS_BAD_ARGS_ERROR, \
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source ": expected %s", \
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##__VA_ARGS__, \
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decl.expected_type); \
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decl.converter(mjs, value, decl.out, decl.extra_data);
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//-V:JS_FETCH_ARGS_OR_RETURN:1008
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/**
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* @brief Fetches and validates the arguments passed to a JS function
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*
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* Example: `int32_t my_arg; JS_FETCH_ARGS_OR_RETURN(mjs, JS_EXACTLY, JS_ARG_INT32(&my_arg));`
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*
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* @warning This macro executes `return;` by design in case of an argument count
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* mismatch or a validation failure
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*/
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#define JS_FETCH_ARGS_OR_RETURN(mjs, arg_operator, ...) \
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_js_arg_decl _js_args[] = {__VA_ARGS__}; \
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int _js_arg_cnt = COUNT_OF(_js_args); \
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mjs_val_t _js_arg_vals[_js_arg_cnt]; \
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if(!(mjs_nargs(mjs) arg_operator _js_arg_cnt)) \
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JS_ERROR_AND_RETURN( \
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mjs, \
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MJS_BAD_ARGS_ERROR, \
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"expected %s%d arguments, got %d", \
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#arg_operator, \
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_js_arg_cnt, \
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mjs_nargs(mjs)); \
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for(int _i = 0; _i < _js_arg_cnt; _i++) { \
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_js_arg_vals[_i] = mjs_arg(mjs, _i); \
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JS_CONVERT_OR_RETURN(mjs, &_js_arg_vals[_i], _js_args[_i], "argument %d", _i); \
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}
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/**
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* @brief Prepends an error, sets the JS return value to `undefined` and returns
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* from the C function
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@@ -359,3 +143,7 @@ void js_does_sdk_support(struct mjs* mjs);
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* @brief `checkSdkFeatures` function
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*/
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void js_check_sdk_features(struct mjs* mjs);
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#ifdef __cplusplus
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}
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#endif
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