LCOV - code coverage report
Current view: top level - monetdb5/mal - mal_atom.c (source / functions) Hit Total Coverage
Test: coverage.info Lines: 34 92 37.0 %
Date: 2024-11-15 19:37:45 Functions: 4 4 100.0 %

          Line data    Source code
       1             : /*
       2             :  * SPDX-License-Identifier: MPL-2.0
       3             :  *
       4             :  * This Source Code Form is subject to the terms of the Mozilla Public
       5             :  * License, v. 2.0.  If a copy of the MPL was not distributed with this
       6             :  * file, You can obtain one at http://mozilla.org/MPL/2.0/.
       7             :  *
       8             :  * Copyright 2024 MonetDB Foundation;
       9             :  * Copyright August 2008 - 2023 MonetDB B.V.;
      10             :  * Copyright 1997 - July 2008 CWI.
      11             :  */
      12             : 
      13             : /*
      14             :  * (author) M.L.Kersten
      15             :  * Every MAL command introduced in an atom module should be checked
      16             :  * to detect overloading of a predefined function.
      17             :  * Subsequently, we update the GDK atom structure.
      18             :  * The function signatures should be parameter-less, which
      19             :  * enables additional functions with the same name to appear
      20             :  * as ordinary mal operators.
      21             :  *
      22             :  * A few fields are set only once, at creation time.
      23             :  * They should be implemented with parameter-less functions.
      24             :  */
      25             : #include "monetdb_config.h"
      26             : #include "mal_instruction.h"
      27             : #include "mal_atom.h"
      28             : #include "mal_namespace.h"
      29             : #include "mal_exception.h"
      30             : #include "mal_private.h"
      31             : 
      32             : str
      33           3 : malAtomProperty(mel_func *f)
      34             : {
      35           3 :         const char *name;
      36           3 :         int tpe;
      37           3 :         assert(f != 0);
      38           3 :         name = f->fcn;
      39           3 :         tpe = getAtomIndex(f->mod, strlen(f->mod), TYPE_any);
      40           3 :         if (tpe < 0 || tpe >= GDKatomcnt || tpe >= MAXATOMS)
      41             :                 return MAL_SUCCEED;
      42           3 :         assert(f->imp != NULL);
      43           3 :         switch (name[0]) {
      44           0 :         case 'd':
      45           0 :                 if (idcmp("del", name) == 0 && f->argc == 1) {
      46           0 :                         BATatoms[tpe].atomDel = (void (*)(Heap *, var_t *)) f->imp;
      47           0 :                         return MAL_SUCCEED;
      48             :                 }
      49             :                 break;
      50           0 :         case 'c':
      51           0 :                 if (idcmp("cmp", name) == 0 && f->argc == 1) {
      52           0 :                         BATatoms[tpe].atomCmp = (int (*)(const void *, const void *)) f->imp;
      53           0 :                         BATatoms[tpe].linear = true;
      54           0 :                         return MAL_SUCCEED;
      55             :                 }
      56             :                 break;
      57           3 :         case 'f':
      58           3 :                 if (idcmp("fromstr", name) == 0 && f->argc == 1) {
      59           0 :                         BATatoms[tpe].atomFromStr = (ssize_t (*)(const char *, size_t *, ptr *, bool)) f->imp;
      60           0 :                         return MAL_SUCCEED;
      61             :                 }
      62             :                 break;
      63           0 :         case 'h':
      64           0 :                 if (idcmp("heap", name) == 0 && f->argc == 1) {
      65             :                         /* heap function makes an atom varsized */
      66           0 :                         BATatoms[tpe].size = sizeof(var_t);
      67           0 :                         assert_shift_width(ATOMelmshift(ATOMsize(tpe)), ATOMsize(tpe));
      68           0 :                         BATatoms[tpe].atomHeap = (gdk_return (*)(Heap *, size_t)) f->imp;
      69           0 :                         return MAL_SUCCEED;
      70             :                 }
      71           0 :                 if (idcmp("hash", name) == 0 && f->argc == 1) {
      72           0 :                         BATatoms[tpe].atomHash = (BUN (*)(const void *)) f->imp;
      73           0 :                         return MAL_SUCCEED;
      74             :                 }
      75             :                 break;
      76           0 :         case 'l':
      77           0 :                 if (idcmp("length", name) == 0 && f->argc == 1) {
      78           0 :                         BATatoms[tpe].atomLen = (size_t (*)(const void *)) f->imp;
      79           0 :                         return MAL_SUCCEED;
      80             :                 }
      81             :                 break;
      82           0 :         case 'n':
      83           0 :                 if (idcmp("null", name) == 0 && f->argc == 1) {
      84           0 :                         const void *atmnull = ((const void *(*)(void)) f->imp)();
      85             : 
      86           0 :                         BATatoms[tpe].atomNull = atmnull;
      87           0 :                         return MAL_SUCCEED;
      88             :                 }
      89           0 :                 if (idcmp("nequal", name) == 0 && f->argc == 1) {
      90           0 :                         BATatoms[tpe].atomCmp = (int (*)(const void *, const void *)) f->imp;
      91           0 :                         return MAL_SUCCEED;
      92             :                 }
      93             :                 break;
      94           0 :         case 'p':
      95           0 :                 if (idcmp("put", name) == 0 && f->argc == 1) {
      96           0 :                         BATatoms[tpe].atomPut = (var_t (*)(BAT *, var_t *, const void *)) f->imp;
      97           0 :                         return MAL_SUCCEED;
      98             :                 }
      99             :                 break;
     100           0 :         case 's':
     101           0 :                 if (idcmp("storage", name) == 0 && f->argc == 1) {
     102           0 :                         BATatoms[tpe].storage = (*(int (*)(void)) f->imp) ();
     103           0 :                         return MAL_SUCCEED;
     104             :                 }
     105             :                 break;
     106           0 :         case 't':
     107           0 :                 if (idcmp("tostr", name) == 0 && f->argc == 1) {
     108           0 :                         BATatoms[tpe].atomToStr = (ssize_t (*)(str *, size_t *, const void *, bool)) f->imp;
     109           0 :                         return MAL_SUCCEED;
     110             :                 }
     111             :                 break;
     112           0 :         case 'r':
     113           0 :                 if (idcmp("read", name) == 0 && f->argc == 1) {
     114           0 :                         BATatoms[tpe].atomRead = (void *(*)(void *, size_t *, stream *, size_t)) f->imp;
     115           0 :                         return MAL_SUCCEED;
     116             :                 }
     117             :                 break;
     118           0 :         case 'w':
     119           0 :                 if (idcmp("write", name) == 0 && f->argc == 1) {
     120           0 :                         BATatoms[tpe].atomWrite = (gdk_return (*)(const void *, stream *, size_t)) f->imp;
     121           0 :                         return MAL_SUCCEED;
     122             :                 }
     123             :                 break;
     124             :         }
     125             :         return MAL_SUCCEED;
     126             : }
     127             : 
     128             : /*
     129             :  * Atoms are constructed incrementally in the kernel using the
     130             :  * ATOMallocate function. It takes an existing type as a base
     131             :  * to derive a new one.
     132             :  * The most tedisous work is to check the signature types of the functions
     133             :  * acceptable for the kernel.
     134             :  */
     135             : 
     136             : str
     137           4 : malAtomDefinition(const char *name, int tpe)
     138             : {
     139           4 :         int i;
     140             : 
     141           4 :         if (strlen(name) >= IDLENGTH) {
     142           0 :                 throw(SYNTAX, "atomDefinition", "Atom name '%s' too long", name);
     143             :         }
     144           4 :         if (ATOMindex(name) >= 0) {
     145             :                 return MAL_SUCCEED;
     146             :         }
     147           4 :         if (tpe < 0 || tpe >= GDKatomcnt) {
     148           0 :                 throw(TYPE, "atomDefinition", "Undefined atom inheritance '%s'", name);
     149             :         }
     150           4 :         if (strlen(name) >= sizeof(BATatoms[0].name))
     151           0 :                 throw(TYPE, "atomDefinition", "Atom name too long '%s'", name);
     152             : 
     153           4 :         i = ATOMallocate(name);
     154           4 :         if (is_int_nil(i))
     155           0 :                 throw(TYPE, "atomDefinition", SQLSTATE(HY013) MAL_MALLOC_FAIL);
     156             :         /* overload atom ? */
     157           4 :         if (tpe) {
     158           4 :                 BATatoms[i] = BATatoms[tpe];
     159           4 :                 strcpy_len(BATatoms[i].name, name, sizeof(BATatoms[i].name));
     160           4 :                 BATatoms[i].storage = ATOMstorage(tpe);
     161             :         } else {                                        /* cannot overload void atoms */
     162           0 :                 BATatoms[i].storage = i;
     163           0 :                 BATatoms[i].linear = false;
     164             :         }
     165             :         return MAL_SUCCEED;
     166             : }
     167             : 
     168             : /*
     169             :  * User defined modules may introduce fixed sized types
     170             :  * to store information in BATs.
     171             :  */
     172             : int
     173         303 : malAtomSize(int size, const char *name)
     174             : {
     175         303 :         int i = 0;
     176             : 
     177         303 :         i = ATOMindex(name);
     178         303 :         BATatoms[i].storage = i;
     179         303 :         BATatoms[i].size = size;
     180         303 :         assert_shift_width(ATOMelmshift(ATOMsize(i)), ATOMsize(i));
     181         303 :         return i;
     182             : }
     183             : 
     184             : void
     185         297 : mal_atom_reset(void)
     186             : {
     187         297 :         int i;
     188         297 :         for (i = 0; i < GDKatomcnt; i++)
     189             :                 if (BATatoms[i].atomNull) {
     190             :                         // TBD
     191             :                 }
     192         297 : }

Generated by: LCOV version 1.14