Hash :
3d8d7728
Author :
Thomas de Grivel
Date :
2023-03-23T17:19:58
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/* c3
* Copyright 2022,2023 kmx.io <contact@kmx.io>
*
* Permission is hereby granted to use this software 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 <dlfcn.h>
#include <err.h>
#include <stdlib.h>
#include <string.h>
#include "cfn.h"
#include "list.h"
#include "str.h"
#include "sym.h"
#include "tag.h"
ffi_type * cfn_sym_to_ffi_type (const s_sym *sym,
ffi_type *result_type);
s_tag * cfn_tag_init (s_tag *tag, const s_sym *type);
void * cfn_tag_to_ffi_value (s_tag *tag, const s_sym *type);
s_tag * cfn_apply (s_cfn *cfn, s_list *args, s_tag *dest)
{
s_list *a;
void **arg_pointers = NULL;
void **arg_values = NULL;
u8 arity;
s_list *cfn_arg_type;
sw i = 0;
sw num_args;
void *result;
s_tag tmp;
s_tag tmp2;
assert(cfn);
assert(cfn->arity == cfn->cif.nargs);
num_args = list_length(args);
arity = cfn->arity - (cfn->arg_result ? 1 : 0);
if (arity != num_args) {
warnx("cfn_apply: invalid number of arguments, expected %d, have %ld",
arity, num_args);
return NULL;
}
cfn_tag_init(&tmp, cfn->result_type);
if (cfn->arg_result)
cfn_tag_init(&tmp2, cfn->result_type);
/* make result point to tmp value */
result = cfn_tag_to_ffi_value(&tmp, cfn->result_type);
if (cfn->arity) {
if (! (arg_pointers = calloc(sizeof(void *), cfn->arity + 1)))
err(1, "cfn_apply");
if (! (arg_values = calloc(sizeof(void *), cfn->arity + 1)))
err(1, "cfn_apply");
cfn_arg_type = cfn->arg_types;
a = args;
while (cfn_arg_type) {
assert(cfn_arg_type->tag.type.type == TAG_SYM);
if (cfn_arg_type->tag.data.sym == sym_1("&result"))
if (cfn->cif.rtype == &ffi_type_pointer) {
arg_pointers[i] = cfn_tag_to_ffi_value(&tmp2, cfn->result_type);
arg_values[i] = &arg_pointers[i];
}
else
arg_values[i] = cfn_tag_to_ffi_value(&tmp2, cfn->result_type);
else {
if (cfn->cif.arg_types[i] == &ffi_type_pointer) {
arg_pointers[i] = cfn_tag_to_ffi_value(&a->tag,
cfn_arg_type->tag.data.sym);
arg_values[i] = &arg_pointers[i];
}
else
arg_values[i] = cfn_tag_to_ffi_value(&a->tag,
cfn_arg_type->tag.data.sym);
a = list_next(a);
}
cfn_arg_type = list_next(cfn_arg_type);
i++;
}
}
if (cfn->ptr.f) {
ffi_call(&cfn->cif, cfn->ptr.f, result, arg_values);
if (cfn->arg_result) {
*dest = tmp2;
tag_clean(&tmp);
}
else
*dest = tmp;
}
else {
warnx("cfn_apply: NULL function pointer");
tag_init_void(dest);
}
free(arg_pointers);
free(arg_values);
return dest;
}
void cfn_clean (s_cfn *cfn)
{
assert(cfn);
str_clean(&cfn->name);
list_delete_all(cfn->arg_types);
if (cfn->cif.nargs)
free(cfn->cif.arg_types);
}
s_cfn * cfn_copy (const s_cfn *cfn, s_cfn *dest)
{
assert(cfn);
assert(dest);
str_copy(&cfn->name, &dest->name);
dest->arg_result = cfn->arg_result;
list_copy(cfn->arg_types, &dest->arg_types);
dest->arity = cfn->arity;
dest->cif = cfn->cif;
dest->cif.arg_types = calloc(cfn->cif.nargs + 1, sizeof(ffi_type *));
memcpy(dest->cif.arg_types, cfn->cif.arg_types,
(cfn->cif.nargs + 1) * sizeof(ffi_type *));
dest->result_type = cfn->result_type;
dest->ptr = cfn->ptr;
return dest;
}
s_cfn * cfn_init (s_cfn *cfn)
{
assert(cfn);
bzero(cfn, sizeof(s_cfn));
return cfn;
}
s_cfn * cfn_link (s_cfn *cfn)
{
assert(cfn);
if (! (cfn->ptr.p = dlsym(RTLD_DEFAULT, cfn->name.ptr.ps8)))
warnx("cfn_link: %s: %s", cfn->name.ptr.ps8, dlerror());
return cfn;
}
s_cfn * cfn_set_type (s_cfn *cfn, s_list *arg_type,
const s_sym *result_type)
{
s_list *a;
ffi_type **arg_ffi_type = NULL;
sw arity;
u8 i = 0;
ffi_type *result_ffi_type;
ffi_status status;
assert(cfn);
if (! (result_ffi_type = cfn_sym_to_ffi_type(result_type, NULL)))
return NULL;
if ((arity = list_length(arg_type))) {
if (arity > 255) {
assert(arity <= 255);
errx(1, "cfn_set_arg_types: arity > 255");
}
if (! (arg_ffi_type = calloc(sizeof(ffi_type *), arity + 1)))
err(1, "cfn_set_arg_types");
a = arg_type;
while (a) {
assert(i < arity);
if (a->tag.type.type != TAG_SYM) {
assert(! "cfn_set_type: invalid type");
errx(1, "cfn_set_type: invalid type");
}
if (! (arg_ffi_type[i] = cfn_sym_to_ffi_type(a->tag.data.sym, result_ffi_type))) {
free(arg_ffi_type);
return NULL;
}
if (a->tag.data.sym == sym_1("&result"))
cfn->arg_result = true;
i++;
a = list_next(a);
}
}
cfn->arg_types = arg_type;
cfn->arity = arity;
cfn->result_type = result_type;
status = ffi_prep_cif(&cfn->cif, FFI_DEFAULT_ABI, cfn->arity, result_ffi_type,
arg_ffi_type);
if (status == FFI_BAD_TYPEDEF) {
warnx("cfn_set_type: ffi_prep_cif: FFI_BAD_TYPEDEF");
return NULL;
}
if (status == FFI_BAD_ABI) {
warnx("cfn_set_type: ffi_prep_cif: FFI_BAD_ABI");
return NULL;
}
if (status != FFI_OK) {
warnx("cfn_set_type: ffi_prep_cif: unknown error");
return NULL;
}
return cfn;
}
ffi_type * cfn_sym_to_ffi_type (const s_sym *sym, ffi_type *result_type)
{
if (sym == sym_1("tag"))
return &ffi_type_pointer;
if (sym == sym_1("&result")) {
if (! result_type)
warnx("invalid result type: &result");
return result_type;
}
if (sym == sym_1("s8"))
return &ffi_type_sint8;
if (sym == sym_1("s16"))
return &ffi_type_sint16;
if (sym == sym_1("s32"))
return &ffi_type_sint32;
if (sym == sym_1("s64"))
return &ffi_type_sint64;
if (sym == sym_1("sw"))
return &ffi_type_sint;
if (sym == sym_1("u8"))
return &ffi_type_uint8;
if (sym == sym_1("u16"))
return &ffi_type_uint16;
if (sym == sym_1("u32"))
return &ffi_type_uint32;
if (sym == sym_1("u64"))
return &ffi_type_uint64;
if (sym == sym_1("uw"))
return &ffi_type_uint;
assert(! "cfn_sym_to_ffi_type: unknown type");
errx(1, "cfn_sym_to_ffi_type: unknown type");
return NULL;
}
e_tag_type cfn_sym_to_tag_type (const s_sym *sym)
{
if (sym == sym_1("void"))
return TAG_VOID;
if (sym == sym_1("bool"))
return TAG_BOOL;
if (sym == sym_1("call"))
return TAG_CALL;
if (sym == sym_1("call_fn"))
return TAG_CALL_FN;
if (sym == sym_1("call_macro"))
return TAG_CALL_MACRO;
if (sym == sym_1("cfn"))
return TAG_CFN;
if (sym == sym_1("character"))
return TAG_CHARACTER;
if (sym == sym_1("f32"))
return TAG_F32;
if (sym == sym_1("f64"))
return TAG_F64;
if (sym == sym_1("fn"))
return TAG_FN;
if (sym == sym_1("ident"))
return TAG_IDENT;
if (sym == sym_1("integer"))
return TAG_INTEGER;
if (sym == sym_1("s64"))
return TAG_S64;
if (sym == sym_1("s32"))
return TAG_S32;
if (sym == sym_1("s16"))
return TAG_S16;
if (sym == sym_1("s8"))
return TAG_S8;
if (sym == sym_1("u8"))
return TAG_U8;
if (sym == sym_1("u16"))
return TAG_U16;
if (sym == sym_1("u32"))
return TAG_U32;
if (sym == sym_1("u64"))
return TAG_U64;
if (sym == sym_1("list"))
return TAG_LIST;
if (sym == sym_1("ptag"))
return TAG_PTAG;
if (sym == sym_1("quote"))
return TAG_QUOTE;
if (sym == sym_1("str"))
return TAG_STR;
if (sym == sym_1("sym"))
return TAG_SYM;
if (sym == sym_1("tag"))
return TAG_VOID;
if (sym == sym_1("tuple"))
return TAG_TUPLE;
assert(! "cfn_sym_to_tag_type: unknown type");
errx(1, "cfn_sym_to_tag_type: unknown type: %s", sym->str.ptr.ps8);
return TAG_VOID;
}
s_tag * cfn_tag_init (s_tag *tag, const s_sym *type)
{
assert(tag);
bzero(tag, sizeof(s_tag));
tag->type.type = cfn_sym_to_tag_type(type);
return tag;
}
const s_sym * cfn_tag_type_to_sym (e_tag_type tag_type)
{
switch (tag_type) {
case TAG_VOID: return sym_1("void");
case TAG_BOOL: return sym_1("bool");
case TAG_CALL: return sym_1("call");
case TAG_CALL_FN: return sym_1("call_fn");
case TAG_CALL_MACRO: return sym_1("call_macro");
case TAG_CFN: return sym_1("cfn");
case TAG_CHARACTER: return sym_1("character");
case TAG_F32: return sym_1("f32");
case TAG_F64: return sym_1("f64");
case TAG_FN: return sym_1("fn");
case TAG_IDENT: return sym_1("ident");
case TAG_INTEGER: return sym_1("integer");
case TAG_S64: return sym_1("s64");
case TAG_S32: return sym_1("s32");
case TAG_S16: return sym_1("s16");
case TAG_S8: return sym_1("s8");
case TAG_U8: return sym_1("u8");
case TAG_U16: return sym_1("u16");
case TAG_U32: return sym_1("u32");
case TAG_U64: return sym_1("u64");
case TAG_LIST: return sym_1("list");
case TAG_PTAG: return sym_1("ptag");
case TAG_QUOTE: return sym_1("quote");
case TAG_STR: return sym_1("str");
case TAG_SYM: return sym_1("sym");
case TAG_TUPLE: return sym_1("tuple");
case TAG_VAR: return sym_1("var");
}
assert(! "cfn_tag_type_to_sym: invalid tag type");
errx(1, "cfn_tag_type_to_sym: invalid tag type");
return NULL;
}
void * cfn_tag_to_ffi_value (s_tag *tag, const s_sym *type)
{
if (type == sym_1("tag"))
return tag;
switch (tag->type.type) {
case TAG_VOID:
if (type == sym_1("void"))
return NULL;
goto invalid_type;
case TAG_BOOL:
if (type == sym_1("bool"))
return &tag->data.bool;
goto invalid_type;
case TAG_CALL:
if (type == sym_1("call"))
return &tag->data.call;
goto invalid_type;
case TAG_CALL_FN:
if (type == sym_1("call_fn"))
return &tag->data.call;
goto invalid_type;
case TAG_CALL_MACRO:
if (type == sym_1("call_macro"))
return &tag->data.call;
goto invalid_type;
case TAG_CFN:
if (type == sym_1("cfn"))
return &tag->data.cfn;
goto invalid_type;
case TAG_CHARACTER:
if (type == sym_1("character"))
return &tag->data.character;
goto invalid_type;
case TAG_F32:
if (type == sym_1("f32"))
return &tag->data.f32;
goto invalid_type;
case TAG_F64:
if (type == sym_1("f64"))
return &tag->data.f64;
goto invalid_type;
case TAG_FN:
if (type == sym_1("fn"))
return tag->data.fn;
goto invalid_type;
case TAG_IDENT:
if (type == sym_1("ident"))
return &tag->data.ident;
goto invalid_type;
case TAG_INTEGER:
if (type == sym_1("integer"))
return &tag->data.integer;
goto invalid_type;
case TAG_S64:
if (type == sym_1("s64"))
return &tag->data.s64;
goto invalid_type;
case TAG_S32:
if (type == sym_1("s32"))
return &tag->data.s32;
goto invalid_type;
case TAG_S16:
if (type == sym_1("s16"))
return &tag->data.s16;
goto invalid_type;
case TAG_S8:
if (type == sym_1("s8"))
return &tag->data.s8;
goto invalid_type;
case TAG_U8:
if (type == sym_1("u8"))
return &tag->data.u8;
goto invalid_type;
case TAG_U16:
if (type == sym_1("u16"))
return &tag->data.u16;
goto invalid_type;
case TAG_U32:
if (type == sym_1("u32"))
return &tag->data.u32;
goto invalid_type;
case TAG_U64:
if (type == sym_1("u64"))
return &tag->data.u64;
goto invalid_type;
case TAG_LIST:
if (type == sym_1("list"))
return tag->data.list;
goto invalid_type;
case TAG_PTAG:
if (type == sym_1("ptag"))
return (void *) tag->data.ptag;
goto invalid_type;
case TAG_QUOTE:
if (type == sym_1("quote"))
return &tag->data.quote;
goto invalid_type;
case TAG_STR:
if (type == sym_1("str"))
return &tag->data.str;
if (type == sym_1("char*"))
return (void *) tag->data.str.ptr.ps8;
goto invalid_type;
case TAG_SYM:
if (type == sym_1("sym"))
return (void *) tag->data.sym;
if (type == sym_1("str"))
return (void *) &tag->data.sym->str;
if (type == sym_1("char*"))
return (void *) tag->data.sym->str.ptr.ps8;
goto invalid_type;
case TAG_TUPLE:
if (type == sym_1("tuple"))
return &tag->data.tuple;
goto invalid_type;
case TAG_VAR:
goto invalid_type;
}
assert(! "cfn_tag_to_ffi_value: invalid tag type");
errx(1, "cfn_tag_to_ffi_value: invalid tag type");
return NULL;
invalid_type:
warnx("cfn_tag_to_ffi_value: cannot cast %s to %s",
cfn_tag_type_to_sym(tag->type.type)->str.ptr.ps8,
type->str.ptr.ps8);
return NULL;
}