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#include "builtin.h"
#include "compile.h"
static void f_plus(jv input[], jv output[]) {
jv_free(input[0]);
jv a = input[2];
jv b = input[1];
if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
output[0] = jv_number(jv_number_value(a) +
jv_number_value(b));
} else if (jv_get_kind(a) == JV_KIND_STRING && jv_get_kind(b) == JV_KIND_STRING) {
output[0] = jv_string_concat(a, b);
} else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {
output[0] = jv_array_concat(a, b);
} else if (jv_get_kind(a) == JV_KIND_OBJECT && jv_get_kind(b) == JV_KIND_OBJECT) {
output[0] = jv_object_merge(a, b);
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Attempted to add %s and %s",
jv_kind_name(jv_get_kind(a)),
jv_kind_name(jv_get_kind(b))));
jv_free(a);
jv_free(b);
}
}
static void f_minus(jv input[], jv output[]) {
jv_free(input[0]);
jv a = input[2];
jv b = input[1];
if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
output[0] = jv_number(jv_number_value(a) - jv_number_value(b));
} else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) {
jv out = jv_array();
for (int i=0; i<jv_array_length(jv_copy(a)); i++) {
jv x = jv_array_get(jv_copy(a), i);
int include = 1;
for (int j=0; j<jv_array_length(jv_copy(b)); j++) {
if (jv_equal(jv_copy(x), jv_array_get(jv_copy(b), j))) {
include = 0;
break;
}
}
if (include)
out = jv_array_append(out, jv_copy(x));
jv_free(x);
}
jv_free(a);
jv_free(b);
output[0] = out;
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Attempted to subtract %s and %s",
jv_kind_name(jv_get_kind(a)),
jv_kind_name(jv_get_kind(b))));
jv_free(a);
jv_free(b);
}
}
static void f_multiply(jv input[], jv output[]) {
jv_free(input[0]);
jv a = input[2];
jv b = input[1];
if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
output[0] = jv_number(jv_number_value(a) * jv_number_value(b));
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Attempted to multiply %s and %s",
jv_kind_name(jv_get_kind(a)),
jv_kind_name(jv_get_kind(b))));
jv_free(a);
jv_free(b);
}
}
static void f_divide(jv input[], jv output[]) {
jv_free(input[0]);
jv a = input[2];
jv b = input[1];
if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) {
output[0] = jv_number(jv_number_value(a) / jv_number_value(b));
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Attempted to divide %s by %s",
jv_kind_name(jv_get_kind(a)),
jv_kind_name(jv_get_kind(b))));
jv_free(a);
jv_free(b);
}
}
static void f_equal(jv input[], jv output[]) {
jv_free(input[0]);
output[0] = jv_bool(jv_equal(input[2], input[1]));
}
static void f_tonumber(jv input[], jv output[]) {
if (jv_get_kind(input[0]) == JV_KIND_NUMBER) {
output[0] = input[0];
} else if (jv_get_kind(input[0]) == JV_KIND_STRING) {
jv parsed = jv_parse(jv_string_value(input[0]));
if (!jv_is_valid(parsed)) {
jv_free(input[0]);
output[0] = parsed;
} else if (jv_get_kind(parsed) != JV_KIND_NUMBER) {
output[0] = jv_invalid_with_msg(jv_string_fmt("'%s' is not a number",
jv_string_value(input[0])));
jv_free(input[0]);
} else {
jv_free(input[0]);
output[0] = parsed;
}
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Cannot parse %s as a number",
jv_kind_name(jv_get_kind(input[0]))));
jv_free(input[0]);
return;
}
}
static void f_length(jv input[], jv output[]) {
if (jv_get_kind(input[0]) == JV_KIND_ARRAY) {
output[0] = jv_number(jv_array_length(input[0]));
} else if (jv_get_kind(input[0]) == JV_KIND_OBJECT) {
output[0] = jv_number(jv_object_length(input[0]));
} else if (jv_get_kind(input[0]) == JV_KIND_STRING) {
output[0] = jv_number(jv_string_length(input[0]));
} else {
output[0] = jv_invalid_with_msg(jv_string_fmt("Cannot get the length of %s",
jv_kind_name(jv_get_kind(input[0]))));
jv_free(input[0]);
}
}
static void f_tostring(jv input[], jv output[]) {
if (jv_get_kind(input[0]) == JV_KIND_STRING) {
output[0] = input[0];
} else {
output[0] = jv_dump_string(input[0], 0);
}
}
static block j_empty() {
return gen_op_block_defn(CLOSURE_CREATE, "empty", gen_op_simple(BACKTRACK));
}
static block j_false() {
return gen_op_block_defn(CLOSURE_CREATE, "false",
block_join(gen_op_const(LOADK, jv_false()),
gen_op_simple(RET)));
}
static block j_true() {
return gen_op_block_defn(CLOSURE_CREATE, "true",
block_join(gen_op_const(LOADK, jv_true()),
gen_op_simple(RET)));
}
static block j_null() {
return gen_op_block_defn(CLOSURE_CREATE, "null",
block_join(gen_op_const(LOADK, jv_null()),
gen_op_simple(RET)));
}
static block j_not() {
return gen_op_block_defn(CLOSURE_CREATE, "not",
block_join(gen_condbranch(gen_op_const(LOADK, jv_false()),
gen_op_const(LOADK, jv_true())),
gen_op_simple(RET)));
}
static struct cfunction function_list[] = {
{f_plus, "_plus", CALL_BUILTIN_3_1},
{f_minus, "_minus", CALL_BUILTIN_3_1},
{f_multiply, "_multiply", CALL_BUILTIN_3_1},
{f_divide, "_divide", CALL_BUILTIN_3_1},
{f_tonumber, "tonumber", CALL_BUILTIN_1_1},
{f_tostring, "tostring", CALL_BUILTIN_1_1},
{f_equal, "_equal", CALL_BUILTIN_3_1},
{f_length, "length", CALL_BUILTIN_1_1},
};
static struct symbol_table builtins = {function_list, sizeof(function_list)/sizeof(function_list[0])};
typedef block (*bytecoded_builtin)();
static bytecoded_builtin bytecoded_builtins[] = {
j_empty,
j_false,
j_true,
j_null,
j_not,
};
block builtins_bind(block b) {
for (unsigned i=0; i<sizeof(bytecoded_builtins)/sizeof(bytecoded_builtins[0]); i++) {
b = block_bind(bytecoded_builtins[i](), b, OP_IS_CALL_PSEUDO);
}
return gen_cbinding(&builtins, b);
}
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