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/**
* mds — A micro-display server
* Copyright © 2014 Mattias Andrée (maandree@member.fsf.org)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "simplify-tree.h"
#include <stdlib.h>
#include <string.h>
#include <alloca.h>
/**
* This processes value for `mds_kbdc_tree_t.processed`
*/
#define PROCESS_LEVEL 2
/**
* Add an error the to error list
*
* @param NODE:const mds_kbdc_tree_t* The node the triggered the error
* @param SEVERITY:identifier * in `MDS_KBDC_PARSE_ERROR_*` to indicate severity
* @param ...:const char*, ... Error description format string and arguments
* @scope error:mds_kbdc_parse_error_t* Variable where the new error will be stored
*/
#define NEW_ERROR(NODE, SEVERITY, ...) \
NEW_ERROR_(result, SEVERITY, 1, (NODE)->loc_line, \
(NODE)->loc_start, (NODE)->loc_end, 1, __VA_ARGS__)
/**
* Variable whether the latest created error is stored
*/
static mds_kbdc_parse_error_t* error;
/**
* The parameter of `simplify_tree`
*/
static mds_kbdc_parsed_t* restrict result;
/**
* Simplify a subtree
*
* @param tree The tree
* @return Zero on success, -1 on error
*/
static int simplify(mds_kbdc_tree_t* restrict tree);
/**
* Simplify a macro call-subtree
*
* @param tree The macro call-subtree
* @return Zero on success, -1 on error
*/
static int simplify_macro_call(mds_kbdc_tree_macro_call_t* restrict tree)
{
mds_kbdc_tree_t* argument;
mds_kbdc_tree_t* alternative;
mds_kbdc_tree_t* next_statement;
mds_kbdc_tree_t* next_alternative;
mds_kbdc_tree_t* first;
mds_kbdc_tree_t* last;
mds_kbdc_tree_t* new_tree;
mds_kbdc_tree_t* new_argument;
mds_kbdc_tree_t* dup_argument;
mds_kbdc_tree_t** here;
size_t i, argument_index = 0;
long processed;
/* Simplify arguments. */
for (argument = tree->arguments; argument; argument = argument->next)
simplify(argument);
/* Remove ‘.’:s. */
processed = tree->processed, tree->processed = PROCESS_LEVEL;
for (here = &(tree->arguments); *here;)
if ((*here)->type != MDS_KBDC_TREE_TYPE_NOTHING)
here = &((*here)->next);
else
while (*here && (*here)->type == MDS_KBDC_TREE_TYPE_NOTHING)
{
argument = (*here)->next, (*here)->next = NULL;
if ((processed != PROCESS_LEVEL) && ((*here)->processed != PROCESS_LEVEL))
NEW_ERROR(*here, WARNING, "‘.’ outside alternation has no effect");
mds_kbdc_tree_free(*here);
*here = argument;
}
/* Copy arguments. */
if (tree->arguments == NULL)
return 0;
if (dup_argument = mds_kbdc_tree_dup(tree->arguments), dup_argument == NULL)
return -1;
/* Eliminate alterations. */
for (argument = dup_argument; argument; argument = argument->next, argument_index++)
{
if (argument->type != MDS_KBDC_TREE_TYPE_ALTERNATION)
continue;
next_statement = tree->next, tree->next = NULL;
alternative = argument->alternation.inner, argument->alternation.inner = NULL;
for (first = last = NULL; alternative; alternative = next_alternative)
{
/* Duplicate statement. */
if (new_tree = mds_kbdc_tree_dup((mds_kbdc_tree_t*)tree), new_tree == NULL)
{
int saved_errno = errno;
argument->alternation.inner = alternative;
tree->next = next_statement;
mds_kbdc_tree_free(dup_argument);
return errno = saved_errno, -1;
}
/* Join trees. */
if (last)
last->next = new_tree;
last = new_tree;
first = first ? first : new_tree;
/* Jump to the alternation. */
here = &(new_tree->macro_call.arguments);
for (new_argument = *here, i = 0; i < argument_index; i++, here = &((*here)->next))
new_argument = new_argument->next;
/* Detach alternative. */
next_alternative = alternative->next;
/* Right-join alternative. */
alternative->next = new_argument->next, new_argument->next = NULL;
mds_kbdc_tree_free(new_argument);
/* Left-join alternative. */
*here = alternative;
}
mds_kbdc_tree_destroy((mds_kbdc_tree_t*)tree);
memcpy(tree, first, sizeof(mds_kbdc_tree_t));
last->next = next_statement;
free(first);
}
mds_kbdc_tree_free(dup_argument);
/* Example of what will happend:
*
* my_macro([1 2] [1 2] [1 2]) ## call 1
*
* simplify_macro_call on call 1
* after processing argument 1
* my_macro(1 [1 2] [1 2]) ## call 1
* my_macro(2 [1 2] [1 2]) ## call 5
* after processing argument 2
* my_macro(1 1 [1 2]) ## call 1
* my_macro(1 2 [1 2]) ## call 3
* my_macro(2 [1 2] [1 2]) ## call 5
* after processing argument 3
* my_macro(1 1 1) ## call 1
* my_macro(1 1 2) ## call 2
* my_macro(1 2 [1 2]) ## call 3
* my_macro(2 [1 2] [1 2]) ## call 5
*
* no difference after simplify_macro_call on call 2
*
* simplify_macro_call on call 3
* no difference after processing argument 1
* no difference after processing argument 2
* after processing argument 3
* my_macro(1 1 1) ## (call 1)
* my_macro(1 1 2) ## (call 2)
* my_macro(1 2 1) ## call 3
* my_macro(1 2 1) ## call 4
* my_macro(2 [1 2] [1 2]) ## call 5
*
* no difference after simplify_macro_call on call 4
*
* simplify_macro_call on call 5
* no difference after processing argument 1
* after processing argument 2
* my_macro(1 1 1) ## (call 1)
* my_macro(1 1 2) ## (call 2)
* my_macro(1 2 1) ## (call 3)
* my_macro(1 2 2) ## (call 4)
* my_macro(2 1 [1 2]) ## call 5
* my_macro(2 2 [1 2]) ## call 7
* after processing argument 3
* my_macro(1 1 1) ## (call 1)
* my_macro(1 1 2) ## (call 2)
* my_macro(1 2 1) ## (call 3)
* my_macro(1 2 2) ## (call 4)
* my_macro(2 1 1) ## call 5
* my_macro(2 1 2) ## call 6
* my_macro(2 2 [1 2]) ## call 7
*
* no difference after simplify_macro_call on call 6
*
* simplify_macro_call on call 7
* no difference after processing argument 1
* no difference after processing argument 2
* after processing argument 3
* my_macro(1 1 1) ## (call 1)
* my_macro(1 1 2) ## (call 2)
* my_macro(1 2 1) ## (call 3)
* my_macro(1 2 2) ## (call 4)
* my_macro(2 1 1) ## (call 5)
* my_macro(2 1 2) ## (call 6)
* my_macro(2 2 1) ## call 7
* my_macro(2 2 2) ## call 8
*
* no difference after simplify_macro_call on call 8
*
* Nothings (‘.’) are removed before processing the alternations.
*/
return 0;
pfail:
return -1;
}
/**
* Simplify an alternation-subtree
*
* @param tree The alternation-subtree
* @return Zero on success, -1 on error
*/
static int simplify_alternation(mds_kbdc_tree_alternation_t* restrict tree)
{
mds_kbdc_tree_t* argument;
mds_kbdc_tree_t* eliminated_argument;
mds_kbdc_tree_t* first_nothing = NULL;
mds_kbdc_tree_t* temp;
mds_kbdc_tree_t** here;
int redo = 0;
/* Test emptyness. */
if (tree->inner == NULL)
{
NEW_ERROR(tree, ERROR, "empty alternation");
tree->type = MDS_KBDC_TREE_TYPE_NOTHING;
tree->processed = PROCESS_LEVEL;
return 0;
}
/* Test singletonness. */
if (tree->inner->next == NULL)
{
temp = tree->inner;
NEW_ERROR(tree, WARNING, "singleton alternation");
memcpy(tree, temp, sizeof(mds_kbdc_tree_t));
free(temp);
return simplify((mds_kbdc_tree_t*)tree);
}
/* Simplify. */
for (here = &(tree->inner); (argument = *here); redo ? (redo = 0) : (here = &(argument->next), 0))
if ((argument->type == MDS_KBDC_TREE_TYPE_NOTHING) && (argument->processed != PROCESS_LEVEL))
{
/* Test multiple nothings. */
if (first_nothing == NULL)
first_nothing = argument;
else
{
NEW_ERROR(argument, WARNING, "multiple ‘.’ inside an alternation");
NEW_ERROR(first_nothing, NOTE, "first ‘.’ was here");
}
}
else if (argument->type == MDS_KBDC_TREE_TYPE_ALTERNATION)
{
/* Alternation nesting. */
temp = argument->next;
NEW_ERROR(argument, WARNING, "alternation inside alternation is unnecessary");
if (simplify_alternation(&(argument->alternation)))
return -1;
*here = argument, redo = 1;
if (argument->type != MDS_KBDC_TREE_TYPE_ALTERNATION)
argument->next = temp;
else
{
eliminated_argument = argument;
for (argument->next = argument->alternation.inner; argument->next;)
argument = argument->next;
argument->next = temp;
eliminated_argument->alternation.inner = NULL;
*here = eliminated_argument->next;
eliminated_argument->next = NULL;
mds_kbdc_tree_free(eliminated_argument);
}
}
/* TODO find unordered */
return 0;
pfail:
return -1;
}
/**
* Simplify a subtree
*
* @param tree The tree
* @return Zero on success, -1 on error
*/
static int simplify(mds_kbdc_tree_t* restrict tree)
{
#define s(expr) if ((r = simplify(tree->expr))) return r;
int r;
again:
if (tree == NULL)
return 0;
switch (tree->type)
{
case MDS_KBDC_TREE_TYPE_INFORMATION: s (information.inner); break;
case MDS_KBDC_TREE_TYPE_FUNCTION: s (function.inner); break;
case MDS_KBDC_TREE_TYPE_MACRO: s (macro.inner); break;
case MDS_KBDC_TREE_TYPE_ASSUMPTION: s (assumption.inner); break;
case MDS_KBDC_TREE_TYPE_FOR: s (for_.inner); break;
case MDS_KBDC_TREE_TYPE_IF:
s (if_.inner);
s (if_.otherwise);
break;
case MDS_KBDC_TREE_TYPE_MAP:
/* TODO */
break;
case MDS_KBDC_TREE_TYPE_ALTERNATION:
if ((r = simplify_alternation(&(tree->alternation))))
return r;
break;
case MDS_KBDC_TREE_TYPE_UNORDERED:
/* TODO find alternation, unordered and nothing, find singletons, error if empty */
break;
case MDS_KBDC_TREE_TYPE_MACRO_CALL:
if ((r = simplify_macro_call(&(tree->macro_call))))
return r;
break;
default:
break;
}
tree = tree->next;
goto again;
#undef s
}
/**
* Simplify a tree and generate related warnings and errors in the process
*
* @param result_ `result` from `parse_to_tree`, same sematics, will be updated
* @return -1 if an error occursed that cannot be stored in `result`, zero otherwise
*/
int simplify_tree(mds_kbdc_parsed_t* restrict result_)
{
result = result_;
return simplify(result_->tree);
}
#undef NEW_ERROR
#undef PROCESS_LEVEL
|