Hash :
d04f9d06
Author :
Thomas de Grivel
Date :
2022-12-30T19:17:02
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/* c3
* Copyright 2022 kmx.io <contact@kmx.io>
*
* Permission is hereby granted to use this software excepted
* on Apple computers granted the above copyright notice and
* this permission paragraph are included in all copies and
* substantial portions of this software.
*
* THIS SOFTWARE IS PROVIDED "AS-IS" WITHOUT ANY GUARANTEE OF
* PURPOSE AND PERFORMANCE. IN NO EVENT WHATSOEVER SHALL THE
* AUTHOR BE CONSIDERED LIABLE FOR THE USE AND PERFORMANCE OF
* THIS SOFTWARE.
*/
#include <assert.h>
#include <err.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include "c3.h"
#include "../libffi/ffi.h"
s_tag g_tag_first = {0};
s_tag g_tag_last = {0};
s_tag * tag_1 (s_tag *tag, const s8 *p)
{
tag_clean(tag);
return tag_init_1(tag, p);
}
s_tag * tag_bool (s_tag *tag, bool b)
{
assert(tag);
tag_clean(tag);
return tag_init_bool(tag, b);
}
s_tag * tag_cast_integer_to_s8 (s_tag *tag)
{
s8 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_s8(&tag->data.integer);
return tag_s8(tag, i);
}
s_tag * tag_cast_integer_to_s16 (s_tag *tag)
{
s16 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_s16(&tag->data.integer);
return tag_s16(tag, i);
}
s_tag * tag_cast_integer_to_s32 (s_tag *tag)
{
s32 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_s32(&tag->data.integer);
return tag_s32(tag, i);
}
s_tag * tag_cast_integer_to_s64 (s_tag *tag)
{
s64 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_s64(&tag->data.integer);
return tag_s64(tag, i);
}
s_tag * tag_cast_integer_to_u8 (s_tag *tag)
{
u8 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_u8(&tag->data.integer);
return tag_u8(tag, i);
}
s_tag * tag_cast_integer_to_u16 (s_tag *tag)
{
u16 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_u16(&tag->data.integer);
return tag_u16(tag, i);
}
s_tag * tag_cast_integer_to_u32 (s_tag *tag)
{
u32 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_u32(&tag->data.integer);
return tag_u32(tag, i);
}
s_tag * tag_cast_integer_to_u64 (s_tag *tag)
{
u64 i;
assert(tag);
assert(tag->type.type == TAG_INTEGER);
i = integer_to_u64(&tag->data.integer);
return tag_u64(tag, i);
}
s_tag * tag_character (s_tag *tag, character x)
{
assert(tag);
tag_clean(tag);
return tag_init_character(tag, x);
}
void tag_clean (s_tag *tag)
{
assert(tag);
switch (tag->type.type) {
case TAG_CALL: call_clean(&tag->data.call); break;
case TAG_INTEGER: integer_clean(&tag->data.integer); break;
case TAG_LIST: list_delete(tag->data.list); break;
case TAG_QUOTE: quote_clean(tag->data.quote); break;
case TAG_STR: str_clean(&tag->data.str); break;
case TAG_TUPLE: tuple_clean(&tag->data.tuple); break;
default: ;
}
}
s_tag * tag_copy (const s_tag *src, s_tag *dest)
{
assert(src);
assert(dest);
switch (src->type.type) {
case TAG_CALL: call_copy(&src->data.call, &dest->data.call); break;
case TAG_INTEGER:
integer_init(&dest->data.integer);
integer_copy(&src->data.integer, &dest->data.integer); break;
case TAG_LIST: list_copy(src->data.list, &dest->data.list); break;
case TAG_QUOTE: quote_copy(src->data.quote, &dest->data.quote); break;
case TAG_STR: str_copy(&src->data.str, &dest->data.str); break;
case TAG_TUPLE:
tuple_copy(&src->data.tuple, &dest->data.tuple); break;
case TAG_VAR: errx(1, "tag_copy: variable"); return NULL;
default: dest->data = src->data;
}
dest->type.type = src->type.type;
return dest;
}
void tag_delete (s_tag *tag)
{
tag_clean(tag);
free(tag);
}
s_tag * tag_f32 (s_tag *tag, f32 x)
{
assert(tag);
tag_clean(tag);
return tag_init_f32(tag, x);
}
s_tag * tag_f64 (s_tag *tag, f64 x)
{
assert(tag);
tag_clean(tag);
return tag_init_f64(tag, x);
}
u64 tag_hash_u64 (const s_tag *tag)
{
t_hash hash;
assert(tag);
hash_init(&hash);
hash_update_tag(&hash, tag);
return hash_to_u64(&hash);
}
uw tag_hash_uw (const s_tag *tag)
{
t_hash hash;
assert(tag);
hash_init(&hash);
hash_update_tag(&hash, tag);
return hash_to_uw(&hash);
}
s_tag * tag_ident (s_tag *tag, const s_ident *x)
{
assert(tag);
tag_clean(tag);
return tag_init_ident(tag, x);
}
s_tag * tag_ident_1 (s_tag *tag, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_ident_1(tag, p);
}
s_tag * tag_init (s_tag *tag)
{
bzero(tag, sizeof(s_tag));
return tag;
}
s_tag * tag_init_1 (s_tag *tag, const s8 *p)
{
s_buf buf;
assert(tag);
tag_init_void(tag);
if (! p)
return tag;
buf_init_1(&buf, p);
if (buf_parse_tag(&buf, tag) != (sw) strlen(p)) {
assert(! "invalid tag");
errx(1, "invalid tag");
buf_clean(&buf);
return NULL;
}
buf_clean(&buf);
return tag;
}
s_tag * tag_init_bool (s_tag *tag, bool b)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_BOOL;
tag->data.bool = b;
return tag;
}
s_tag * tag_init_character (s_tag *tag, character c)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_CHARACTER;
tag->data.character = c;
return tag;
}
s_tag * tag_init_f32 (s_tag *tag, f32 x)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_F32;
tag->data.f32 = x;
return tag;
}
s_tag * tag_init_f64 (s_tag *tag, f64 x)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_F64;
tag->data.f64 = x;
return tag;
}
s_tag * tag_init_ident (s_tag *tag, const s_ident *x)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_IDENT;
tag->data.ident = *x;
return tag;
}
s_tag * tag_init_ident_1 (s_tag *tag, const s8 *p)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_IDENT;
ident_init_1(&tag->data.ident, p);
return tag;
}
s_tag * tag_init_integer (s_tag *tag, const s_integer *i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_INTEGER;
integer_init(&tag->data.integer);
integer_copy(i, &tag->data.integer);
return tag;
}
s_tag * tag_init_integer_1 (s_tag *tag, const s8 *p)
{
s_buf buf;
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_INTEGER;
buf_init_1(&buf, p);
if (buf_parse_integer(&buf, &tag->data.integer) != (sw) strlen(p)) {
assert(! "tag_init_integer_1: invalid integer");
errx(1, "tag_init_integer_1: invalid integer");
buf_clean(&buf);
return NULL;
}
buf_clean(&buf);
return tag;
}
s_tag * tag_init_list (s_tag *tag, s_list *list)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_LIST;
tag->data.list = list;
return tag;
}
s_tag * tag_init_list_1 (s_tag *tag, const s8 *p)
{
s_buf buf;
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_LIST;
buf_init_1(&buf, p);
if (buf_parse_list(&buf, &tag->data.list) != (sw) strlen(p)) {
assert(! "tag_init_list_1: invalid list");
errx(1, "tag_init_list_1: invalid list");
buf_clean(&buf);
return NULL;
}
buf_clean(&buf);
return tag;
}
s_tag * tag_init_s8 (s_tag *tag, s8 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_S8;
tag->data.s8 = i;
return tag;
}
s_tag * tag_init_s16 (s_tag *tag, s16 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_S16;
tag->data.s16 = i;
return tag;
}
s_tag * tag_init_s32 (s_tag *tag, s32 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_S32;
tag->data.s32 = i;
return tag;
}
s_tag * tag_init_s64 (s_tag *tag, s64 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_S64;
tag->data.s64 = i;
return tag;
}
s_tag * tag_init_str (s_tag *tag, s8 *free, uw size, const s8 *p)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_STR;
str_init(&tag->data.str, free, size, p);
return tag;
}
s_tag * tag_init_str_1 (s_tag *tag, s8 *free, const s8 *p)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_STR;
str_init_1(&tag->data.str, free, p);
return tag;
}
s_tag * tag_init_sym (s_tag *tag, const s_sym *p)
{
assert(tag);
assert(p);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_SYM;
tag->data.sym = p;
return tag;
}
s_tag * tag_init_sym_1 (s_tag *tag, const s8 *p)
{
s_buf buf;
assert(tag);
assert(p);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_SYM;
buf_init_1(&buf, p);
if (buf_parse_sym(&buf, &tag->data.sym) != (sw) strlen(p)) {
assert(! "tag_init_sym_1: invalid symbol");
errx(1, "tag_init_sym_1: invalid symbol");
buf_clean(&buf);
return NULL;
}
buf_clean(&buf);
return tag;
}
s_tag * tag_init_u8 (s_tag *tag, u8 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_U8;
tag->data.u8 = i;
return tag;
}
s_tag * tag_init_u16 (s_tag *tag, u16 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_U16;
tag->data.u16 = i;
return tag;
}
s_tag * tag_init_u32 (s_tag *tag, u32 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_U32;
tag->data.u32 = i;
return tag;
}
s_tag * tag_init_u64 (s_tag *tag, u64 i)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_U64;
tag->data.u64 = i;
return tag;
}
s_tag * tag_init_var (s_tag *tag)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_VAR;
return tag;
}
s_tag * tag_init_void (s_tag *tag)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = TAG_VOID;
return tag;
}
s_str * tag_inspect (const s_tag *tag, s_str *dest)
{
s_buf buf;
sw size;
if ((size = buf_inspect_tag_size(tag)) < 0) {
assert(! "tag_inspect: size error");
errx(1, "tag_inspect: size error");
return NULL;
}
buf_init_alloc(&buf, size);
if (buf_inspect_tag(&buf, tag) != size) {
assert(! "tag_inspect: inspect error");
errx(1, "tag_inspect: inspect error");
return NULL;
}
return buf_to_str(&buf, dest);
}
s_tag * tag_integer (s_tag *tag, const s_integer *x)
{
assert(tag);
tag_clean(tag);
return tag_init_integer(tag, x);
}
s_tag * tag_integer_1 (s_tag *tag, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_integer_1(tag, p);
}
s_tag * tag_integer_reduce (s_tag *tag)
{
uw bytes;
e_bool negative;
assert(tag);
switch (tag->type.type) {
case TAG_INTEGER:
bytes = integer_bytes(&tag->data.integer);
if (bytes > 8)
break;
negative = integer_is_negative(&tag->data.integer);
if (bytes > 4) {
if (negative)
return tag_cast_integer_to_s64(tag);
return tag_cast_integer_to_u64(tag);
}
if (bytes > 2) {
if (negative)
return tag_cast_integer_to_s32(tag);
return tag_cast_integer_to_u32(tag);
}
if (bytes > 1) {
if (negative)
return tag_cast_integer_to_s16(tag);
return tag_cast_integer_to_u16(tag);
}
if (negative)
return tag_cast_integer_to_s8(tag);
return tag_cast_integer_to_u8(tag);
default: ;
}
return tag;
}
e_bool tag_is_bound_var (const s_tag *tag)
{
return (tag &&
tag->type.type == TAG_VAR &&
tag->data.var);
}
e_bool tag_is_number (const s_tag *tag)
{
assert(tag);
switch (tag->type.type) {
case TAG_INTEGER:
case TAG_S8:
case TAG_S16:
case TAG_S32:
case TAG_S64:
case TAG_U8:
case TAG_U16:
case TAG_U32:
case TAG_U64:
return true;
default: ;
}
return false;
}
e_bool tag_is_unbound_var (const s_tag *tag)
{
return (tag &&
tag->type.type == TAG_VAR &&
tag->data.var == NULL);
}
s_tag * tag_list (s_tag *tag, s_list *x)
{
assert(tag);
tag_clean(tag);
return tag_init_list(tag, x);
}
s_tag * tag_list_1 (s_tag *tag, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_list_1(tag, p);
}
s_tag * tag_new ()
{
s_tag *tag;
tag = calloc(1, sizeof(s_tag));
return tag;
}
s_tag * tag_new_1 (const s8 *p)
{
s_tag *tag;
tag = calloc(1, sizeof(s_tag));
return tag_init_1(tag, p);
}
s_tag * tag_new_copy (const s_tag *src)
{
s_tag *dest;
if (! (dest = malloc(sizeof(s_tag))))
errx(1, "tag_new_copy: out of memory");
return tag_copy(src, dest);
}
s_tag * tag_s8 (s_tag *tag, s8 x)
{
assert(tag);
tag_clean(tag);
return tag_init_s8(tag, x);
}
s_tag * tag_s16 (s_tag *tag, s16 x)
{
assert(tag);
tag_clean(tag);
return tag_init_s16(tag, x);
}
s_tag * tag_s32 (s_tag *tag, s32 x)
{
assert(tag);
tag_clean(tag);
return tag_init_s32(tag, x);
}
s_tag * tag_s64 (s_tag *tag, s64 x)
{
assert(tag);
tag_clean(tag);
return tag_init_s64(tag, x);
}
s_tag * tag_str (s_tag *tag, s8 *free, uw size, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_str(tag, free, size, p);
}
s_tag * tag_str_1 (s_tag *tag, s8 *free, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_str_1(tag, free, p);
}
s_tag * tag_sym (s_tag *tag, const s_sym *x)
{
assert(tag);
tag_clean(tag);
return tag_init_sym(tag, x);
}
s_tag * tag_sym_1 (s_tag *tag, const s8 *p)
{
assert(tag);
tag_clean(tag);
return tag_init_sym_1(tag, p);
}
ffi_type tag_to_ffi_type(const s_tag *tag)
{
switch (tag->type.type) {
case TAG_S8:
return ffi_type_sint8;
case TAG_S16:
return ffi_type_sint16;
case TAG_S32:
return ffi_type_sint32;
case TAG_S64:
return ffi_type_sint64;
case TAG_U8:
return ffi_type_uint8;
case TAG_U16:
return ffi_type_uint16;
case TAG_U32:
return ffi_type_uint32;
case TAG_U64:
return ffi_type_uint64;
case TAG_F32:
return ffi_type_float;
case TAG_F64:
return ffi_type_double;
case TAG_VOID:
return ffi_type_void;
case TAG_INTEGER:
return ffi_type_sint;
case TAG_STR:
return ffi_type_pointer;
case TAG_CHARACTER:
return ffi_type_schar;
default: ;
}
assert(! "tag_to_ffi_type: unknown type");
errx(1, "tag_to_ffi_type: unknown type");
return ffi_type_void;
}
s_tag * tag_u8 (s_tag *tag, u8 x)
{
assert(tag);
tag_clean(tag);
return tag_init_u8(tag, x);
}
s_tag * tag_u16 (s_tag *tag, u16 x)
{
assert(tag);
tag_clean(tag);
return tag_init_u16(tag, x);
}
s_tag * tag_u32 (s_tag *tag, u32 x)
{
assert(tag);
tag_clean(tag);
return tag_init_u32(tag, x);
}
s_tag * tag_u64 (s_tag *tag, u64 x)
{
assert(tag);
tag_clean(tag);
return tag_init_u64(tag, x);
}
s_tag * tag_var (s_tag *tag)
{
assert(tag);
tag_clean(tag);
return tag_init_var(tag);
}
s_tag * tag_void (s_tag *tag)
{
assert(tag);
tag_clean(tag);
return tag_init_void(tag);
}