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mirror of https://github.com/janet-lang/janet synced 2024-11-18 14:44:48 +00:00
janet/junkyard/stl.c
2017-11-05 22:05:47 -05:00

982 lines
27 KiB
C

/*
* Copyright (c) 2017 Calvin Rose
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#include "internal.h"
static const char DST_EXPECTED_INTEGER[] = "expected integer";
static const char DST_EXPECTED_STRING[] = "expected string";
static const char *types[] = {
"nil",
"real",
"integer",
"boolean",
"string",
"symbol",
"array",
"tuple",
"table",
"struct",
"thread",
"buffer",
"function",
"cfunction",
"userdata",
"funcenv",
"funcdef"
};
static DstValue nil() {
DstValue n;
n.type = DST_NIL;
n.as.integer = 0;
return n;
}
static DstValue integer(DstInteger i) {
DstValue n;
n.type = DST_INTEGER;
n.as.integer = i;
return n;
}
static DstValue real(DstReal r) {
DstValue n;
n.type = DST_REAL;
n.as.real = r;
return n;
}
static DstValue boolean(int b) {
DstValue n;
n.type = DST_BOOLEAN;
n.as.boolean = b;
return n;
}
/***/
/* Arithmetic */
/***/
#define MAKE_BINOP(name, op)\
static DstValue dst_stl_binop_##name(DstValue lhs, DstValue rhs) {\
if (lhs.type == DST_INTEGER)\
if (rhs.type == DST_INTEGER)\
return integer(lhs.as.integer op rhs.as.integer);\
else if (rhs.type == DST_REAL)\
return real(lhs.as.integer op rhs.as.real);\
else\
return nil();\
else if (lhs.type == DST_REAL)\
if (rhs.type == DST_INTEGER)\
return real(lhs.as.real op rhs.as.integer);\
else if (rhs.type == DST_REAL)\
return real(lhs.as.real op rhs.as.real);\
else\
return nil();\
else\
return nil();\
}
#define SIMPLE_ACCUM_FUNCTION(name, op)\
MAKE_BINOP(name, op)\
int dst_stl_##name(Dst* vm) {\
DstValue lhs, rhs;\
uint32_t j, count;\
count = dst_args(vm);\
lhs = dst_arg(vm, 0);\
for (j = 1; j < count; ++j) {\
rhs = dst_arg(vm, j);\
lhs = dst_stl_binop_##name(lhs, rhs);\
}\
if (lhs.type == DST_NIL)\
dst_c_throwc(vm, "expected integer/real");\
dst_c_return(vm, lhs);\
}
SIMPLE_ACCUM_FUNCTION(add, +)
SIMPLE_ACCUM_FUNCTION(mul, *)
SIMPLE_ACCUM_FUNCTION(sub, -)
/* Detect division by zero */
MAKE_BINOP(div, /)
int dst_stl_div(Dst *vm) {
DstValue lhs, rhs;
uint32_t j, count;
count = dst_args(vm);
lhs = dst_arg(vm, 0);
for (j = 1; j < count; ++j) {
rhs = dst_arg(vm, j);
if (lhs.type == DST_INTEGER && rhs.type == DST_INTEGER && rhs.as.integer == 0)
dst_c_throwc(vm, "cannot integer divide by 0");
lhs = dst_stl_binop_div(lhs, rhs);
}
if (lhs.type == DST_NIL)
dst_c_throwc(vm, "expected integer/real");
dst_c_return(vm, lhs);
}
#undef SIMPLE_ACCUM_FUNCTION
#define BITWISE_FUNCTION(name, op) \
int dst_stl_##name(Dst *vm) {\
DstValue ret;\
uint32_t i, count;\
count = dst_args(vm);\
ret = dst_arg(vm, 0);\
if (ret.type != DST_INTEGER) {\
dst_c_throwc(vm, "expected integer");\
}\
if (count < 2) {\
dst_c_return(vm, ret);\
}\
for (i = 1; i < count; ++i) {\
DstValue next = dst_arg(vm, i);\
if (next.type != DST_INTEGER) {\
dst_c_throwc(vm, "expected integer");\
}\
ret.as.integer = ret.as.integer op next.as.integer;\
}\
dst_c_return(vm, ret);\
}
BITWISE_FUNCTION(band, &)
BITWISE_FUNCTION(bor, |)
BITWISE_FUNCTION(bxor, ^)
BITWISE_FUNCTION(blshift, <<)
BITWISE_FUNCTION(brshift, >>)
#undef BITWISE_FUNCTION
int dst_stl_bnot(Dst *vm) {
DstValue in = dst_arg(vm, 0);
uint32_t count = dst_args(vm);
if (count != 1 || in.type != DST_INTEGER) {
dst_c_throwc(vm, "expected 1 integer argument");
}
in.as.integer = ~in.as.integer;
dst_c_return(vm, in);
}
#define COMPARE_FUNCTION(name, check)\
int dst_stl_##name(Dst *vm) {\
DstValue ret;\
uint32_t i, count;\
count = dst_args(vm);\
ret.as.boolean = 1;\
ret.type = DST_BOOLEAN;\
if (count < 2) {\
dst_c_return(vm, ret);\
}\
for (i = 1; i < count; ++i) {\
DstValue lhs = dst_arg(vm, i - 1);\
DstValue rhs = dst_arg(vm, i);\
if (!(check)) {\
ret.as.boolean = 0;\
break;\
}\
}\
dst_c_return(vm, ret);\
}
COMPARE_FUNCTION(lessthan, dst_compare(lhs, rhs) < 0)
COMPARE_FUNCTION(greaterthan, dst_compare(lhs, rhs) > 0)
COMPARE_FUNCTION(equal, dst_equals(lhs, rhs))
COMPARE_FUNCTION(notequal, !dst_equals(lhs, rhs))
COMPARE_FUNCTION(lessthaneq, dst_compare(lhs, rhs) <= 0)
COMPARE_FUNCTION(greaterthaneq, dst_compare(lhs, rhs) >= 0)
#undef COMPARE_FUNCTION
/* Boolean not */
int dst_stl_not(Dst *vm) {
dst_c_return(vm, boolean(!dst_truthy(dst_arg(vm, 0))));
}
/****/
/* Core */
/****/
/* Empty a mutable datastructure */
int dst_stl_clear(Dst *vm) {
DstValue x = dst_arg(vm, 0);
switch (x.type) {
default:
dst_c_throwc(vm, "cannot clear");
case DST_ARRAY:
x.as.array->count = 0;
break;
case DST_BUFFER:
x.as.buffer->count = 0;
break;
case DST_TABLE:
dst_table_clear(x.as.table);
break;
}
dst_c_return(vm, x);
}
/* Get length of object */
int dst_stl_length(Dst *vm) {
dst_set_integer(vm, 0, dst_length(vm, 0));
dst_return(vm, 0);
return 0;
}
/* Get hash of a value */
int dst_stl_hash(Dst *vm) {
dst_set_integer(vm, 0, dst_hash(vm, 0););
dst_return(vm, 0);
return 0;
}
/* Convert to integer */
int dst_stl_to_int(Dst *vm) {
DstValue x = dst_arg(vm, 0);
if (x.type == DST_INTEGER) dst_c_return(vm, x);
if (x.type == DST_REAL)
dst_c_return(vm, integer((DstInteger) x.as.real));
else
dst_c_throwc(vm, "expected number");
}
/* Convert to integer */
int dst_stl_to_real(Dst *vm) {
DstValue x = dst_arg(vm, 0);
if (x.type == DST_REAL) dst_c_return(vm, x);
if (x.type == DST_INTEGER)
dst_c_return(vm, dst_wrap_real((DstReal) x.as.integer));
else
dst_c_throwc(vm, "expected number");
}
/* Get a slice of a sequence */
int dst_stl_slice(Dst *vm) {
uint32_t count = dst_args(vm);
int32_t from, to;
DstValue x;
const DstValue *data;
const uint8_t *cdata;
uint32_t length;
uint32_t newlength;
DstInteger num;
/* Get data */
x = dst_arg(vm, 0);
if (!dst_seq_view(x, &data, &length) &&
!dst_chararray_view(x, &cdata, &length)) {
dst_c_throwc(vm, "expected array/tuple/buffer/symbol/string");
}
/* Get from index */
if (count < 2) {
from = 0;
} else {
if (!dst_check_integer(vm, 1, &num))
dst_c_throwc(vm, DST_EXPECTED_INTEGER);
from = dst_startrange(num, length);
}
/* Get to index */
if (count < 3) {
to = length;
} else {
if (!dst_check_integer(vm, 2, &num))
dst_c_throwc(vm, DST_EXPECTED_INTEGER);
to = dst_endrange(num, length);
}
/* Check from bad bounds */
if (from < 0 || to < 0 || to < from)
dst_c_throwc(vm, "index out of bounds");
/* Build slice */
newlength = to - from;
if (x.type == DST_TUPLE) {
DstValue *tup = dst_tuple_begin(vm, newlength);
dst_memcpy(tup, data + from, newlength * sizeof(DstValue));
dst_c_return(vm, dst_wrap_tuple(dst_tuple_end(vm, tup)));
} else if (x.type == DST_ARRAY) {
DstArray *arr = dst_array(vm, newlength);
arr->count = newlength;
dst_memcpy(arr->data, data + from, newlength * sizeof(DstValue));
dst_c_return(vm, dst_wrap_array(arr));
} else if (x.type == DST_STRING) {
dst_c_return(vm, dst_wrap_string(dst_string_b(vm, x.as.string + from, newlength)));
} else if (x.type == DST_SYMBOL) {
dst_c_return(vm, dst_wrap_symbol(dst_string_b(vm, x.as.string + from, newlength)));
} else { /* buffer */
DstBuffer *b = dst_buffer(vm, newlength);
dst_memcpy(b->data, x.as.buffer->data, newlength);
b->count = newlength;
dst_c_return(vm, dst_wrap_buffer(b));
}
}
/* Get type of object */
int dst_stl_type(Dst *vm) {
DstValue x;
const char *typestr = "nil";
uint32_t count = dst_args(vm);
if (count == 0)
dst_c_throwc(vm, "expected at least 1 argument");
x = dst_arg(vm, 0);
switch (x.type) {
default:
break;
case DST_REAL:
typestr = "real";
break;
case DST_INTEGER:
typestr = "integer";
break;
case DST_BOOLEAN:
typestr = "boolean";
break;
case DST_STRING:
typestr = "string";
break;
case DST_SYMBOL:
typestr = "symbol";
break;
case DST_ARRAY:
typestr = "array";
break;
case DST_TUPLE:
typestr = "tuple";
break;
case DST_THREAD:
typestr = "thread";
break;
case DST_BUFFER:
typestr = "buffer";
break;
case DST_FUNCTION:
typestr = "function";
break;
case DST_CFUNCTION:
typestr = "cfunction";
break;
case DST_TABLE:
typestr = "table";
break;
case DST_USERDATA:
typestr = "userdata";
break;
case DST_FUNCENV:
typestr = "funcenv";
break;
case DST_FUNCDEF:
typestr = "funcdef";
break;
}
dst_c_return(vm, dst_string_cv(vm, typestr));
}
/* Create array */
int dst_stl_array(Dst *vm) {
uint32_t i;
uint32_t count = dst_args(vm);
DstArray *array = dst_array(vm, count);
for (i = 0; i < count; ++i)
array->data[i] = dst_arg(vm, i);
dst_c_return(vm, dst_wrap_array(array));
}
/* Create tuple */
int dst_stl_tuple(Dst *vm) {
uint32_t i;
uint32_t count = dst_args(vm);
DstValue *tuple= dst_tuple_begin(vm, count);
for (i = 0; i < count; ++i)
tuple[i] = dst_arg(vm, i);
dst_c_return(vm, dst_wrap_tuple(dst_tuple_end(vm, tuple)));
}
/* Create object */
int dst_stl_table(Dst *vm) {
uint32_t i;
uint32_t count = dst_args(vm);
DstTable *table;
if (count % 2 != 0)
dst_c_throwc(vm, "expected even number of arguments");
table = dst_table(vm, 4 * count);
for (i = 0; i < count; i += 2)
dst_table_put(vm, table, dst_arg(vm, i), dst_arg(vm, i + 1));
dst_c_return(vm, dst_wrap_table(table));
}
/* Create struct */
int dst_stl_struct(Dst *vm) {
uint32_t i;
uint32_t count = dst_args(vm);
DstValue *st;
if (count % 2 != 0)
dst_c_throwc(vm, "expected even number of arguments");
st = dst_struct_begin(vm, count / 2);
for (i = 0; i < count; i += 2)
dst_struct_put(st, dst_arg(vm, i), dst_arg(vm, i + 1));
dst_c_return(vm, dst_wrap_struct(dst_struct_end(vm, st)));
}
/* Create a buffer */
int dst_stl_buffer(Dst *vm) {
uint32_t i, count;
const uint8_t *dat;
uint32_t slen;
DstBuffer *buf = dst_buffer(vm, 10);
count = dst_args(vm);
for (i = 0; i < count; ++i) {
if (dst_chararray_view(dst_arg(vm, i), &dat, &slen))
dst_buffer_append(vm, buf, dat, slen);
else
dst_c_throwc(vm, DST_EXPECTED_STRING);
}
dst_c_return(vm, dst_wrap_buffer(buf));
}
/* Create a string */
int dst_stl_string(Dst *vm) {
uint32_t j;
uint32_t count = dst_args(vm);
uint32_t length = 0;
uint32_t index = 0;
uint8_t *str;
const uint8_t *dat;
uint32_t slen;
/* Find length and assert string arguments */
for (j = 0; j < count; ++j) {
if (!dst_chararray_view(dst_arg(vm, j), &dat, &slen)) {
DstValue newarg;
dat = dst_to_string(vm, dst_arg(vm, j));
slen = dst_string_length(dat);
newarg.type = DST_STRING;
newarg.as.string = dat;
dst_set_arg(vm, j, newarg);
}
length += slen;
}
/* Make string */
str = dst_string_begin(vm, length);
for (j = 0; j < count; ++j) {
dst_chararray_view(dst_arg(vm, j), &dat, &slen);
dst_memcpy(str + index, dat, slen);
index += slen;
}
dst_c_return(vm, dst_wrap_string(dst_string_end(vm, str)));
}
/* Create a symbol */
int dst_stl_symbol(Dst *vm) {
int ret = dst_stl_string(vm);
if (ret == DST_RETURN_OK) {
vm->ret.type = DST_SYMBOL;
}
return ret;
}
/* Create a thread */
int dst_stl_thread(Dst *vm) {
DstThread *t;
DstValue callee = dst_arg(vm, 0);
DstValue parent = dst_arg(vm, 1);
DstValue errorParent = dst_arg(vm, 2);
t = dst_thread(vm, callee, 10);
if (callee.type != DST_FUNCTION && callee.type != DST_CFUNCTION)
dst_c_throwc(vm, "expected function in thread constructor");
if (parent.type == DST_THREAD) {
t->parent = parent.as.thread;
} else if (parent.type != DST_NIL) {
dst_c_throwc(vm, "expected thread/nil as parent");
} else {
t->parent = vm->thread;
}
dst_c_return(vm, dst_wrap_thread(t));
}
/* Get current thread */
int dst_stl_current(Dst *vm) {
dst_c_return(vm, dst_wrap_thread(vm->thread));
}
/* Get parent of a thread */
/* TODO - consider implications of this function
* for sandboxing */
int dst_stl_parent(Dst *vm) {
DstThread *t;
if (!dst_check_thread(vm, 0, &t))
dst_c_throwc(vm, "expected thread");
if (t->parent == NULL)
dst_c_return(vm, dst_wrap_nil());
dst_c_return(vm, dst_wrap_thread(t->parent));
}
/* Get the status of a thread */
int dst_stl_status(Dst *vm) {
DstThread *t;
const char *cstr;
if (!dst_check_thread(vm, 0, &t))
dst_c_throwc(vm, "expected thread");
switch (t->status) {
case DST_THREAD_PENDING:
cstr = "pending";
break;
case DST_THREAD_ALIVE:
cstr = "alive";
break;
case DST_THREAD_DEAD:
cstr = "dead";
break;
case DST_THREAD_ERROR:
cstr = "error";
break;
}
dst_c_return(vm, dst_string_cv(vm, cstr));
}
/* Associative get */
int dst_stl_get(Dst *vm) {
DstValue ret;
uint32_t count;
const char *err;
count = dst_args(vm);
if (count != 2)
dst_c_throwc(vm, "expects 2 arguments");
err = dst_get(dst_arg(vm, 0), dst_arg(vm, 1), &ret);
if (err != NULL)
dst_c_throwc(vm, err);
else
dst_c_return(vm, ret);
}
/* Associative set */
int dst_stl_set(Dst *vm) {
uint32_t count;
const char *err;
count = dst_args(vm);
if (count != 3)
dst_c_throwc(vm, "expects 3 arguments");
err = dst_set(vm, dst_arg(vm, 0), dst_arg(vm, 1), dst_arg(vm, 2));
if (err != NULL)
dst_c_throwc(vm, err);
else
dst_c_return(vm, dst_arg(vm, 0));
}
/* Push to end of array */
int dst_stl_push(Dst *vm) {
DstValue ds = dst_arg(vm, 0);
if (ds.type != DST_ARRAY)
dst_c_throwc(vm, "expected array");
dst_array_push(vm, ds.as.array, dst_arg(vm, 1));
dst_c_return(vm, ds);
}
/* Pop from end of array */
int dst_stl_pop(Dst *vm) {
DstValue ds = dst_arg(vm, 0);
if (ds.type != DST_ARRAY)
dst_c_throwc(vm, "expected array");
dst_c_return(vm, dst_array_pop(ds.as.array));
}
/* Peek at end of array */
int dst_stl_peek(Dst *vm) {
DstValue ds = dst_arg(vm, 0);
if (ds.type != DST_ARRAY)
dst_c_throwc(vm, "expected array");
dst_c_return(vm, dst_array_peek(ds.as.array));
}
/* Ensure array capacity */
int dst_stl_ensure(Dst *vm) {
DstValue ds = dst_arg(vm, 0);
DstValue cap = dst_arg(vm, 1);
if (ds.type != DST_ARRAY)
dst_c_throwc(vm, "expected array");
if (cap.type != DST_INTEGER)
dst_c_throwc(vm, DST_EXPECTED_INTEGER);
dst_array_ensure(vm, ds.as.array, (uint32_t) cap.as.integer);
dst_c_return(vm, ds);
}
/* Get next key in struct or table */
int dst_stl_next(Dst *vm) {
DstValue ds = dst_arg(vm, 0);
DstValue key = dst_arg(vm, 1);
if (ds.type == DST_TABLE) {
dst_c_return(vm, dst_table_next(ds.as.table, key));
} else if (ds.type == DST_STRUCT) {
dst_c_return(vm, dst_struct_next(ds.as.st, key));
} else {
dst_c_throwc(vm, "expected table or struct");
}
}
/* Print values for inspection */
int dst_stl_print(Dst *vm) {
uint32_t j, count;
count = dst_args(vm);
for (j = 0; j < count; ++j) {
uint32_t i;
const uint8_t *string = dst_to_string(vm, dst_arg(vm, j));
uint32_t len = dst_string_length(string);
for (i = 0; i < len; ++i)
fputc(string[i], stdout);
}
fputc('\n', stdout);
return DST_RETURN_OK;
}
/* Long description */
int dst_stl_description(Dst *vm) {
DstValue x = dst_arg(vm, 0);
const uint8_t *buf = dst_description(vm, x);
dst_c_return(vm, dst_wrap_string(buf));
}
/* Short description */
int dst_stl_short_description(Dst *vm) {
DstValue x = dst_arg(vm, 0);
const uint8_t *buf = dst_short_description(vm, x);
dst_c_return(vm, dst_wrap_string(buf));
}
/* Exit */
int dst_stl_exit(Dst *vm) {
int ret;
DstValue x = dst_arg(vm, 0);
ret = x.type == DST_INTEGER ? x.as.integer : (x.type == DST_REAL ? x.as.real : 0);
exit(ret);
return DST_RETURN_OK;
}
/* Throw error */
int dst_stl_error(Dst *vm) {
dst_c_throw(vm, dst_arg(vm, 0));
}
/***/
/* Function reflection */
/***/
int dst_stl_funcenv(Dst *vm) {
DstFunction *fn;
if (!dst_check_function(vm, 0, &fn))
dst_c_throwc(vm, "expected function");
if (fn->env)
dst_c_return(vm, dst_wrap_funcenv(fn->env));
else
return DST_RETURN_OK;
}
int dst_stl_funcdef(Dst *vm) {
DstFunction *fn;
if (!dst_check_function(vm, 0, &fn))
dst_c_throwc(vm, "expected function");
dst_c_return(vm, dst_wrap_funcdef(fn->def));
}
int dst_stl_funcparent(Dst *vm) {
DstFunction *fn;
if (!dst_check_function(vm, 0, &fn))
dst_c_throwc(vm, "expected function");
if (fn->parent)
dst_c_return(vm, dst_wrap_function(fn->parent));
else
return DST_RETURN_OK;
}
int dst_stl_def(Dst *vm) {
DstValue key = dst_arg(vm, 0);
if (dst_args(vm) != 2) {
dst_c_throwc(vm, "expected 2 arguments to global-def");
}
if (key.type != DST_STRING && key.type != DST_SYMBOL) {
dst_c_throwc(vm, "expected string/symbol as first argument");
}
key.type = DST_SYMBOL;
dst_env_put(vm, vm->env, key, dst_arg(vm, 1));
dst_c_return(vm, dst_arg(vm, 1));
}
int dst_stl_var(Dst *vm) {
DstValue key = dst_arg(vm, 0);
if (dst_args(vm) != 2) {
dst_c_throwc(vm, "expected 2 arguments to global-var");
}
if (key.type != DST_STRING && key.type != DST_SYMBOL) {
dst_c_throwc(vm, "expected string as first argument");
}
key.type = DST_SYMBOL;
dst_env_putvar(vm, vm->env, key, dst_arg(vm, 1));
dst_c_return(vm, dst_arg(vm, 1));
}
/****/
/* IO */
/****/
/* File type definition */
static DstUserType dst_stl_filetype = {
"std.file",
NULL,
NULL,
NULL,
NULL
};
/* Open a a file and return a userdata wrapper arounf the C file API. */
int dst_stl_open(Dst *vm) {
const uint8_t *fname = dst_to_string(vm, dst_arg(vm, 0));
const uint8_t *fmode = dst_to_string(vm, dst_arg(vm, 1));
FILE *f;
FILE **fp;
if (dst_args(vm) < 2 || dst_arg(vm, 0).type != DST_STRING
|| dst_arg(vm, 1).type != DST_STRING)
dst_c_throwc(vm, "expected filename and filemode");
f = fopen((const char *)fname, (const char *)fmode);
if (!f)
dst_c_throwc(vm, "could not open file");
fp = dst_userdata(vm, sizeof(FILE *), &dst_stl_filetype);
*fp = f;
dst_c_return(vm, dst_wrap_userdata(fp));
}
/* Read an entire file into memory */
int dst_stl_slurp(Dst *vm) {
DstBuffer *b;
long fsize;
FILE *f;
FILE **fp = dst_check_userdata(vm, 0, &dst_stl_filetype);
if (fp == NULL) dst_c_throwc(vm, "expected file");
if (!dst_check_buffer(vm, 1, &b)) b = dst_buffer(vm, 10);
f = *fp;
/* Read whole file */
fseek(f, 0, SEEK_END);
fsize = ftell(f);
fseek(f, 0, SEEK_SET);
/* Ensure buffer size */
dst_buffer_ensure(vm, b, b->count + fsize);
fread((char *)(b->data + b->count), fsize, 1, f);
b->count += fsize;
dst_c_return(vm, dst_wrap_buffer(b));
}
/* Read a certain number of bytes into memory */
int dst_stl_read(Dst *vm) {
DstBuffer *b;
FILE *f;
int64_t len;
FILE **fp = dst_check_userdata(vm, 0, &dst_stl_filetype);
if (fp == NULL) dst_c_throwc(vm, "expected file");
if (!(dst_check_integer(vm, 1, &len))) dst_c_throwc(vm, "expected integer");
if (!dst_check_buffer(vm, 2, &b)) b = dst_buffer(vm, 10);
f = *fp;
/* Ensure buffer size */
dst_buffer_ensure(vm, b, b->count + len);
b->count += fread((char *)(b->data + b->count), len, 1, f) * len;
dst_c_return(vm, dst_wrap_buffer(b));
}
/* Write bytes to a file */
int dst_stl_write(Dst *vm) {
FILE *f;
const uint8_t *data;
uint32_t len;
FILE **fp = dst_check_userdata(vm, 0, &dst_stl_filetype);
if (fp == NULL) dst_c_throwc(vm, "expected file");
if (!dst_chararray_view(dst_arg(vm, 1), &data, &len)) dst_c_throwc(vm, "expected string|buffer");
f = *fp;
fwrite(data, len, 1, f);
return DST_RETURN_OK;
}
/* Close a file */
int dst_stl_close(Dst *vm) {
FILE **fp = dst_check_userdata(vm, 0, &dst_stl_filetype);
if (fp == NULL) dst_c_throwc(vm, "expected file");
fclose(*fp);
dst_c_return(vm, dst_wrap_nil());
}
/****/
/* Temporary */
/****/
/* Force garbage collection */
int dst_stl_gcollect(Dst *vm) {
dst_collect(vm);
return DST_RETURN_OK;
}
/***/
/* Compilation */
/***/
/* Generate a unique symbol */
static int dst_stl_gensym(Dst *vm) {
DstValue source = dst_arg(vm, 0);
const uint8_t *sym = NULL;
uint32_t len;
const uint8_t *data;
if (source.type == DST_NIL) {
sym = dst_string_cu(vm, "");
} else if (dst_chararray_view(source, &data, &len)) {
sym = dst_string_bu(vm, data, len);
} else {
dst_c_throwc(vm, "exepcted string/buffer/symbol/nil");
}
dst_c_return(vm, dst_wrap_symbol(sym));
}
/* Compile a value */
static int dst_stl_compile(Dst *vm) {
DstTable *env = vm->env;
if (dst_arg(vm, 1).type == DST_TABLE) {
env = dst_arg(vm, 1).as.table;
}
dst_c_return(vm, dst_compile(vm, env, dst_arg(vm, 0)));
}
/* Get vm->env */
static int dst_stl_getenv(Dst *vm) {
dst_c_return(vm, dst_wrap_table(vm->env));
}
/* Set vm->env */
static int dst_stl_setenv(Dst *vm) {
DstValue newEnv = dst_arg(vm, 0);
if (newEnv.type != DST_TABLE) {
dst_c_throwc(vm, "expected table");
}
vm->env = newEnv.as.table;
return DST_RETURN_OK;
}
/****/
/* Bootstraping */
/****/
static const DstModuleItem std_module[] = {
/* Arithmetic */
{"+", dst_stl_add},
{"*", dst_stl_mul},
{"-", dst_stl_sub},
{"/", dst_stl_div},
/* Comparisons */
{"<", dst_stl_lessthan},
{">", dst_stl_greaterthan},
{"=", dst_stl_equal},
{"not=", dst_stl_notequal},
{"<=", dst_stl_lessthaneq},
{">=", dst_stl_greaterthaneq},
/* Bitwise arithmetic */
{"band", dst_stl_band},
{"bor", dst_stl_bor},
{"bxor", dst_stl_bxor},
{"blshift", dst_stl_blshift},
{"brshift", dst_stl_brshift},
{"bnot", dst_stl_bnot},
/* IO */
{"open", dst_stl_open},
{"slurp", dst_stl_slurp},
{"read", dst_stl_read},
{"write", dst_stl_write},
/* Compile */
{"gensym", dst_stl_gensym},
{"getenv", dst_stl_getenv},
{"setenv", dst_stl_setenv},
{"compile", dst_stl_compile},
/* Other */
{"not", dst_stl_not},
{"clear", dst_stl_clear},
{"length", dst_stl_length},
{"hash", dst_stl_hash},
{"integer", dst_stl_to_int},
{"real", dst_stl_to_real},
{"type", dst_stl_type},
{"slice", dst_stl_slice},
{"array", dst_stl_array},
{"tuple", dst_stl_tuple},
{"table", dst_stl_table},
{"struct", dst_stl_struct},
{"buffer", dst_stl_buffer},
{"string", dst_stl_string},
{"symbol", dst_stl_symbol},
{"thread", dst_stl_thread},
{"status", dst_stl_status},
{"current", dst_stl_current},
{"parent", dst_stl_parent},
{"print", dst_stl_print},
{"description", dst_stl_description},
{"short-description", dst_stl_short_description},
{"exit!", dst_stl_exit},
{"get", dst_stl_get},
{"set!", dst_stl_set},
{"next", dst_stl_next},
{"error", dst_stl_error},
{"push!", dst_stl_push},
{"pop!", dst_stl_pop},
{"peek", dst_stl_peek},
{"ensure!", dst_stl_ensure},
{"open", dst_stl_open},
{"slurp", dst_stl_slurp},
{"read", dst_stl_read},
{"write", dst_stl_write},
{"close", dst_stl_close},
{"funcenv", dst_stl_funcenv},
{"funcdef", dst_stl_funcdef},
{"funcparent", dst_stl_funcparent},
{"gcollect", dst_stl_gcollect},
{"global-def", dst_stl_def},
{"global-var", dst_stl_var},
{NULL, NULL}
};
/* Load stl library into the current environment. Create stl module object
* only if it is not yet created. */
void dst_stl_load(Dst *vm) {
DstValue maybeEnv = dst_table_get(vm->modules, dst_string_cvs(vm, "std"));
if (maybeEnv.type == DST_TABLE) {
/* Module already created, so merge into main vm. */
dst_env_merge(vm, vm->env, maybeEnv.as.table);
} else {
/* Module not yet created */
/* Load the normal c functions */
dst_module_mutable(vm, "std", std_module);
/* Wrap stdin and stdout */
FILE **inp = dst_userdata(vm, sizeof(FILE *), &dst_stl_filetype);
FILE **outp = dst_userdata(vm, sizeof(FILE *), &dst_stl_filetype);
FILE **errp = dst_userdata(vm, sizeof(FILE *), &dst_stl_filetype);
*inp = stdin;
*outp = stdout;
*errp = stderr;
dst_module_put(vm, "std", "stdin", dst_wrap_userdata(inp));
dst_module_put(vm, "std", "stdout", dst_wrap_userdata(outp));
dst_module_put(vm, "std", "stderr", dst_wrap_userdata(outp));
/* Now merge */
maybeEnv = dst_table_get(vm->modules, dst_string_cvs(vm, "std"));
dst_env_merge(vm, vm->env, maybeEnv.as.table);
}
}