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Diffstat (limited to 'src/mds-kbdc/compile-layout.c')
-rw-r--r--src/mds-kbdc/compile-layout.c191
1 files changed, 170 insertions, 21 deletions
diff --git a/src/mds-kbdc/compile-layout.c b/src/mds-kbdc/compile-layout.c
index f77daff..f49e3c2 100644
--- a/src/mds-kbdc/compile-layout.c
+++ b/src/mds-kbdc/compile-layout.c
@@ -156,6 +156,7 @@ static int set_macro(const mds_kbdc_tree_macro_t* restrict macro,
{
(void) macro;
(void) macro_include_stack;
+ mds_kbdc_include_stack_free(macro_include_stack);
return 0; /* TODO */
}
@@ -186,6 +187,7 @@ static int set_function(const mds_kbdc_tree_function_t* restrict function,
{
(void) function;
(void) function_include_stack;
+ mds_kbdc_include_stack_free(function_include_stack);
return 0; /* TODO */
}
@@ -247,16 +249,24 @@ static int compile_language(mds_kbdc_tree_information_language_t* restrict tree)
char** old = NULL;
int saved_errno;
- for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
-
+ /* Make sure the language-list fits another entry. */
if (result->languages_ptr == result->languages_size)
{
result->languages_size = result->languages_size ? (result->languages_size << 1) : 1;
fail_if (xxrealloc(old, result->languages, result->languages_size, char*));
}
+ /* Locate the first character in the language-string. */
+ for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
+ /* Evaluate function calls, variable dereferences and escapes in the language-string. */
fail_if ((data = parse_string((mds_kbdc_tree_t*)tree, tree->data, lineoff), data == NULL));
+ if (tree->processed == PROCESS_LEVEL)
+ return free(data), 0;
+ /* We want the string in UTF-8, not UTF-16. */
fail_if ((code = string_encode(data), code == NULL));
+ free(data);
+
+ /* Add the language to the language-list. */
result->languages[result->languages_ptr++] = code;
return 0;
@@ -281,17 +291,24 @@ static int compile_country(mds_kbdc_tree_information_country_t* restrict tree)
char** old = NULL;
int saved_errno;
- for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
-
+ /* Make sure the country-list fits another entry. */
if (result->countries_ptr == result->countries_size)
{
result->countries_size = result->countries_size ? (result->countries_size << 1) : 1;
fail_if (xxrealloc(old, result->countries, result->countries_size, char*));
}
+ /* Locate the first character in the country-string. */
+ for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
+ /* Evaluate function calls, variable dereferences and escapes in the country-string. */
fail_if ((data = parse_string((mds_kbdc_tree_t*)tree, tree->data, lineoff), data == NULL));
+ if (tree->processed == PROCESS_LEVEL)
+ return free(data), 0;
+ /* We want the string in UTF-8, not UTF-16. */
fail_if ((code = string_encode(data), code == NULL));
free(data);
+
+ /* Add the country to the country-list. */
result->countries[result->countries_ptr++] = code;
return 0;
@@ -315,6 +332,7 @@ static int compile_variant(mds_kbdc_tree_information_variant_t* restrict tree)
char32_t* restrict data = NULL;
int saved_errno;
+ /* Make sure the variant has not already been set. */
if (result->variant)
{
if (multiple_variants == 0)
@@ -323,10 +341,17 @@ static int compile_variant(mds_kbdc_tree_information_variant_t* restrict tree)
return 0;
}
+ /* Locate the first character in the variant-string. */
for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
+ /* Evaluate function calls, variable dereferences and escapes in the variant-string. */
fail_if ((data = parse_string((mds_kbdc_tree_t*)tree, tree->data, lineoff), data == NULL));
+ if (tree->processed == PROCESS_LEVEL)
+ return free(data), 0;
+ /* We want the string in UTF-8, not UTF-16. */
fail_if ((code = string_encode(data), code == NULL));
free(data);
+
+ /* Store the variant. */
result->variant = code;
return 0;
@@ -347,29 +372,37 @@ static int compile_have(mds_kbdc_tree_assumption_have_t* restrict tree)
mds_kbdc_tree_t* node = tree->data;
char32_t* data = NULL;
char32_t** old = NULL;
- size_t new_size = (node->type == C(STRING)) ? result->assumed_strings_size : result->assumed_keys_size;
+ size_t new_size = 0;
int saved_errno;
+ /* Make sure we can fit all assumption in the assumption list (part 1/2). */
+ new_size = (node->type == C(STRING)) ? result->assumed_strings_size : result->assumed_keys_size;
new_size = new_size ? (new_size << 1) : 1;
if (node->type == C(STRING))
{
+ /* Evaluate function calls, variable dereferences and escapes in the string. */
fail_if ((data = parse_string(node, node->string.string, node->loc_start), data == NULL));
if (node->processed == PROCESS_LEVEL)
return free(data), 0;
+ /* Make sure we can fit all strings in the assumption list (part 2/2). */
if (result->assumed_strings_ptr == result->assumed_strings_size)
fail_if (xxrealloc(old, result->assumed_strings, new_size, char*));
result->assumed_strings_size = new_size;
+ /* Add the assumption to the list. */
result->assumed_strings[result->assumed_strings_ptr++] = data;
}
else
{
+ /* Evaluate function calls, variable dereferences and escapes in the key-combination. */
fail_if ((data = parse_keys(node, node->keys.keys, node->loc_start), data == NULL));
if (node->processed == PROCESS_LEVEL)
return free(data), 0;
+ /* Make sure we can fit all key-combinations in the assumption list (part 2/2). */
if (result->assumed_keys_ptr == result->assumed_keys_size)
fail_if (xxrealloc(old, result->assumed_keys, new_size, char*));
result->assumed_keys_size = new_size;
+ /* Add the assumption to the list. */
result->assumed_keys[result->assumed_keys_ptr++] = data;
}
@@ -397,16 +430,23 @@ static int compile_have_chars(mds_kbdc_tree_assumption_have_chars_t* restrict tr
size_t n;
int saved_errno;
+ /* Locate the first character in the list. */
for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
+ /* Evaluate function calls, variable dereferences
+ and escapes in the charcter list. */
fail_if ((data = parse_string((mds_kbdc_tree_t*)tree, tree->chars, lineoff), data == NULL));
- for (n = 0; data[n] >= 0; n++);
+ if (tree->processed == PROCESS_LEVEL)
+ return free(data), 0;
+ /* Make sure we can fit all characters in the assumption list. */
+ for (n = 0; data[n] >= 0; n++);
if (result->assumed_strings_ptr + n > result->assumed_strings_size)
{
result->assumed_strings_size += n;
fail_if (xxrealloc(old, result->assumed_strings, result->assumed_strings_size, char*));
}
+ /* Add all characters to the assumption list. */
while (n--)
{
fail_if (xmalloc(character, 2, char32_t));
@@ -442,21 +482,29 @@ static int compile_have_range(mds_kbdc_tree_assumption_have_range_t* restrict tr
size_t n;
int saved_errno;
+
+ /* Locate the first characters of both bound strings. */
for (lineoff_first = tree->loc_end; code[lineoff_first] == ' '; lineoff_first++);
for (lineoff_last = lineoff_first + strlen(tree->first); code[lineoff_last] == ' '; lineoff_last++);
+ /* Duplicate bounds and evaluate function calls,
+ variable dereferences and escapes in the bounds. */
fail_if ((first = parse_string((mds_kbdc_tree_t*)tree, tree->first, lineoff_first), first == NULL));
fail_if ((last = parse_string((mds_kbdc_tree_t*)tree, tree->last, lineoff_last), last == NULL));
+ /* Did one of the bound not evaluate, then stop. */
if (tree->processed == PROCESS_LEVEL)
goto done;
+
+ /* Check that the primary bound is single-character. */
if ((first[0] < 0) || (first[1] >= 0))
{
NEW_ERROR(tree, ERROR, "iteration boundary must be a single character string");
error->start = lineoff_first, lineoff_first = 0;
error->end = error->start + strlen(tree->first);
}
+ /* Check that the secondary bound is single-character. */
if ((last[0] < 0) || (last[1] >= 0))
{
NEW_ERROR(tree, ERROR, "iteration boundary must be a single character string");
@@ -464,20 +512,26 @@ static int compile_have_range(mds_kbdc_tree_assumption_have_range_t* restrict tr
error->end = error->start + strlen(tree->last);
}
+ /* Was one of the bounds not single-character, then stop. */
if ((lineoff_first == 0) || (lineoff_last == 0))
goto done;
+
+ /* If the range is descending, swap the bounds so it is ascending.
+ (This cannot be done in for-loops as that may cause side-effects
+ to be created in the wrong order.) */
if (*first > *last)
*first ^= *last, *last ^= *first, *first ^= *last;
+ /* Make sure we can fit all characters in the assumption list. */
n = (size_t)(*last - *first) + 1;
-
if (result->assumed_strings_ptr + n > result->assumed_strings_size)
{
result->assumed_strings_size += n;
fail_if (xxrealloc(old, result->assumed_strings, result->assumed_strings_size, char*));
}
+ /* Add all characters to the assumption list. */
while (*first != *last)
{
fail_if (xmalloc(character, 2, char32_t));
@@ -671,23 +725,30 @@ static int check_name_suffix(struct mds_kbdc_tree_callable* restrict tree)
const char* restrict name = strchr(tree->name, '/');
const char* restrict code = result->source_code->real_lines[tree->loc_line];
+ /* A "/" must exist in the name to tell us how many parameters there are. */
if (name == NULL)
{
NEW_ERROR(tree, ERROR, "name-suffix is missing");
goto name_error;
}
+ /* Do not let the suffix by just "/". */
if (*++name == '\0')
{
NEW_ERROR(tree, ERROR, "empty name-suffix");
goto name_error;
}
+
+ /* We are all good if the suffix is simply "/0" */
if (!strcmp(name, "0"))
return 0;
+
+ /* The suffix may not have leading zeroes. */
if (*name == '\0')
{
NEW_ERROR(tree, ERROR, "leading zero in name-suffix");
goto name_error;
}
+ /* The suffix must be a decimal, non-negative number. */
for (; *name; name++)
if ((*name < '0') || ('0' < *name))
{
@@ -725,19 +786,25 @@ static int compile_function(mds_kbdc_tree_function_t* restrict tree)
size_t arg_count;
int r, saved_errno;
+ /* Check that the suffix if properly formatted. */
t (check_name_suffix((struct mds_kbdc_tree_callable*)tree));
+ /* Get the function's name without suffix, and parse the suffix. */
suffixless = tree->name;
suffix_start = strchr(suffixless, '/');
*suffix_start++ = '\0';
arg_count = (size_t)atoll(suffix_start--);
+ /* Check that the function is not already defined as a builtin function. */
if (builtin_function_defined(suffixless, arg_count))
{
NEW_ERROR(tree, ERROR, "function ‘%s’ is already defined as a builtin function", tree->name);
*suffix_start = '/';
return 0;
}
+ /* Check that the function is not already defined,
+ the include-stack is used in the error-clause as
+ well as later when we list the function as defined. */
fail_if (get_function_lax(suffixless, arg_count, &function, &function_include_stack));
fail_if ((our_include_stack = mds_kbdc_include_stack_save(), our_include_stack == NULL));
if (function)
@@ -751,9 +818,13 @@ static int compile_function(mds_kbdc_tree_function_t* restrict tree)
return 0;
}
+ /* Check the the function does not call macros or functions
+ * before they are defined, otherwise they may get defined
+ * between the definition of the function and calls to it. */
t (check_marco_calls(tree->inner));
t (check_function_calls(tree->inner));
+ /* List the function as defined. */
*suffix_start = '/', suffix_start = NULL;
t (set_function(tree, our_include_stack));
@@ -781,10 +852,13 @@ static int compile_macro(mds_kbdc_tree_macro_t* restrict tree)
mds_kbdc_include_stack_t* our_include_stack = NULL;
int r, saved_errno;
- fail_if ((our_include_stack = mds_kbdc_include_stack_save(), our_include_stack == NULL));
-
+ /* Check that the suffix if properly formatted. */
t (check_name_suffix((struct mds_kbdc_tree_callable*)tree));
+ /* Check that the macro is not already defined,
+ the include-stack is used in the error-clause as
+ well as later when we list the macro as defined. */
+ fail_if ((our_include_stack = mds_kbdc_include_stack_save(), our_include_stack == NULL));
t (get_macro_lax(tree->name, &macro, &macro_include_stack));
if (macro)
{
@@ -796,9 +870,13 @@ static int compile_macro(mds_kbdc_tree_macro_t* restrict tree)
return 0;
}
+ /* Check the the macro does not call macros or functions
+ * before they are defined, otherwise they may get defined
+ * between the definition of the macro and calls to it. */
t (check_marco_calls(tree->inner));
t (check_function_calls(tree->inner));
+ /* List the macro as defined. */
t (set_macro(tree, our_include_stack));
return 0;
@@ -828,25 +906,36 @@ static int compile_for(mds_kbdc_tree_for_t* restrict tree)
size_t variable;
int saved_errno;
+
+ /* Locate the first character of the primary bound's string. */
for (lineoff_first = tree->loc_end; code[lineoff_first] == ' '; lineoff_first++);
+ /* Locate the first character of the secondary bound's string. */
for (lineoff_last = lineoff_first + strlen(tree->first); code[lineoff_last] == ' '; lineoff_last++);
for (lineoff_last += strlen("to"); code[lineoff_last] == ' '; lineoff_last++);
+ /* Locate the first character of the select variable. */
for (lineoff_var = lineoff_last + strlen(tree->variable); code[lineoff_var] == ' '; lineoff_var++);
for (lineoff_var += strlen("as"); code[lineoff_var] == ' '; lineoff_var++);
+ /* Duplicate bounds and evaluate function calls,
+ variable dereferences and escapes in the bounds. */
fail_if ((first = parse_string((mds_kbdc_tree_t*)tree, tree->first, lineoff_first), first == NULL));
fail_if ((last = parse_string((mds_kbdc_tree_t*)tree, tree->last, lineoff_last), last == NULL));
+ /* Get the index of the selected variable. */
fail_if ((variable = parse_variable((mds_kbdc_tree_t*)tree, tree->variable, lineoff_var), variable == 0));
+ /* Did one of the bound not evaluate, then stop. */
if (tree->processed == PROCESS_LEVEL)
goto done;
+
+ /* Check that the primary bound is single-character. */
if ((first[0] < 0) || (first[1] >= 0))
{
NEW_ERROR(tree, ERROR, "iteration boundary must be a single character string");
error->start = lineoff_first, lineoff_first = 0;
error->end = error->start + strlen(tree->first);
}
+ /* Check that the secondary bound is single-character. */
if ((last[0] < 0) || (last[1] >= 0))
{
NEW_ERROR(tree, ERROR, "iteration boundary must be a single character string");
@@ -854,9 +943,13 @@ static int compile_for(mds_kbdc_tree_for_t* restrict tree)
error->end = error->start + strlen(tree->last);
}
+ /* Was one of the bounds not single-character, then stop. */
if ((lineoff_first == 0) || (lineoff_last == 0))
goto done;
+
+ /* Iterate over the loop for as long as a `return` or `break` has not
+ been encountered (without being caught elsewhere). */
character[1] = -1;
for (diff = (*first > *last) ? -1 : +1; (*first != *last) && (break_level < 2); *first += diff)
{
@@ -866,9 +959,11 @@ static int compile_for(mds_kbdc_tree_for_t* restrict tree)
fail_if (compile_subtree(tree->inner));
}
+ /* Catch `break` and `continue`, they may not propagate further. */
if (break_level < 3)
break_level = 0;
+
done:
free(first);
free(last);
@@ -894,11 +989,14 @@ static int compile_if(mds_kbdc_tree_if_t* restrict tree)
int ok, saved_errno;
size_t i;
+ /* Locate the first character in the condition. */
for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
-
+ /* Evaluate function calls, variable dereferences and escapes in the condition. */
fail_if ((data = parse_string((mds_kbdc_tree_t*)tree, tree->condition, lineoff), data == NULL));
- fail_if (tree->processed == PROCESS_LEVEL);
+ if (tree->processed == PROCESS_LEVEL)
+ return free(data), 0;
+ /* Evaluate whether the evaluted value is true. */
for (ok = 1, i = 0; data[i] >= 0; i++)
ok &= !!(data[i]);
free(data);
@@ -924,16 +1022,20 @@ static int compile_let(mds_kbdc_tree_let_t* restrict tree)
size_t variable;
int saved_errno;
+ /* Get the index of the selected variable. */
for (lineoff = tree->loc_end; code[lineoff] == ' '; lineoff++);
fail_if ((variable = parse_variable((mds_kbdc_tree_t*)tree, tree->variable, lineoff), variable == 0));
if (tree->processed == PROCESS_LEVEL)
return 0;
+ /* Duplicate arguments and evaluate function calls,
+ variable dereferences and escapes in the value. */
fail_if ((value = mds_kbdc_tree_dup(tree->value), value == NULL));
fail_if (compile_subtree(value));
if ((tree->processed = value->processed) == PROCESS_LEVEL)
return 0;
+ /* Set the value of the variable. */
fail_if (let(variable, NULL, value, NULL, 0, 0));
free(value);
@@ -1075,46 +1177,71 @@ static int compile_map(mds_kbdc_tree_map_t* restrict tree)
char32_t* data = NULL;
int r, saved_errno;
+ /* Duplicate arguments and evaluate function calls,
+ variable dereferences and escapes in the mapping
+ input sequence. */
fail_if ((seq = mds_kbdc_tree_dup(old_seq), seq = NULL));
fail_if ((bad |= evaluate_element(seq), bad < 0));
+ /* Duplicate arguments and evaluate function calls,
+ variable dereferences and escapes in the mapping
+ output sequence, unless this is a value-statement. */
if (tree->result)
{
fail_if ((res = mds_kbdc_tree_dup(old_res), res = NULL));
fail_if ((bad |= evaluate_element(res), bad < 0));
}
+ /* Stop if any of the mapping-arguments could not be evaluated. */
if (bad)
goto done;
+
if (tree->result)
{
+ /* Mapping-statement. */
+
+ /* Check for invalid characters in the mapping-arguments. */
fail_if ((bad |= check_nonnul(seq), bad < 0));
fail_if ((bad |= check_nonnul(res), bad < 0));
if (bad)
goto done;
+ /* Duplicate the mapping-statement but give it the evaluated mapping-arguments. */
tree->sequence = seq;
tree->result = res;
fail_if ((dup_map = &(mds_kbdc_tree_dup((mds_kbdc_tree_t*)tree)->map), dup_map = NULL));
tree->sequence = old_seq, seq = NULL;
tree->result = old_res, res = NULL;
+
+ /* Enlist the mapping for assembling. */
fail_if ((include_stack = mds_kbdc_include_stack_save(), include_stack == NULL));
fail_if (add_mapping(dup_map, include_stack));
+
+ goto done;
}
- else
+
+
+ /* Value-statement */
+
+ /* Add the value statement */
+ data = string_decode(seq->string.string);
+ fail_if (data == NULL);
+ fail_if ((r = set_return_value(data), r < 0));
+ data = NULL;
+
+ /* Check that the value-statement is inside a function call, or has
+ side-effects by directly or indirectly calling ‘\set/3’ on an
+ array that is not shadowed by an inner function- or macro-call. */
+ if (r)
{
- data = string_decode(seq->string.string);
- fail_if (data == NULL);
- fail_if ((r = set_return_value(data), r < 0));
- data = NULL;
- if (r)
- {
- NEW_ERROR(tree, ERROR, "value-statement outside function without side-effects");
- tree->processed = PROCESS_LEVEL;
- }
+ NEW_ERROR(tree, ERROR, "value-statement outside function without side-effects");
+ tree->processed = PROCESS_LEVEL;
}
+ /* TODO warn if tree->next is also a value-statement, unless this value has side-effect */
+
+
done:
mds_kbdc_tree_free(seq);
mds_kbdc_tree_free(res);
@@ -1147,25 +1274,42 @@ static int compile_macro_call(mds_kbdc_tree_macro_call_t* restrict tree)
size_t variable;
int bad, saved_errno;
+ /* Duplicate arguments and evaluate function calls,
+ variable dereferences and escapes in the macro
+ call arguments. */
fail_if ((arg = mds_kbdc_tree_dup(tree->arguments), arg = NULL));
fail_if ((bad = evaluate_element(arg), bad < 0));
if (bad)
return 0;
+ /* Get the macro's subtree and include stack, if it has
+ not been defined `get_macro` will add an error message
+ and return `NULL`. */
fail_if (get_macro(tree, &macro, &macro_include_stack));
if (macro == NULL)
goto done;
+
+ /* Push call stack and set parameters. */
fail_if (push_stack());
for (arg_ = arg; arg_; arg_ = arg_->next)
fail_if (let(variable, NULL, arg_, NULL, 0, 0));
+
+ /* Switch include-stack to the macro's. */
fail_if ((our_include_stack = mds_kbdc_include_stack_save(), our_include_stack == NULL));
fail_if (mds_kbdc_include_stack_restore(macro_include_stack));
+
+ /* Call the macro. */
fail_if (compile_subtree(macro->inner));
+
+ /* Switch back the include-stack to ours. */
fail_if (mds_kbdc_include_stack_restore(our_include_stack));
mds_kbdc_include_stack_free(our_include_stack), our_include_stack = NULL;
+
+ /* Pop call stack. */
fail_if (pop_stack());
+
done:
break_level = 0;
mds_kbdc_tree_free(arg);
@@ -1194,6 +1338,8 @@ static int compile_subtree(mds_kbdc_tree_t* restrict tree)
return 0;
if (tree->processed == PROCESS_LEVEL)
+ /* An error has occurred here before, lets skip it so
+ * we do not deluge the user with errors. */
goto next;
switch (tree->type)
@@ -1230,6 +1376,9 @@ static int compile_subtree(mds_kbdc_tree_t* restrict tree)
next:
if (break_level)
+ /* If a `continue`, `break` or `return` has been encountered,
+ * we are done here and should return to whence we came and
+ * let the subcompiler of that construct deal with it. */
return 0;
tree = tree->next;