i,
p_nesting=0, /* parenthesis nesting value */
b=0; /* current breakpoint in expression string */
-
- /*
- * Main tree & Tree concatening list
+
+ /* trees */
+ lttv_filter_tree
+ *tree = lttv_filter_tree_new(), /* main tree */
+ *subtree = NULL, /* buffer for subtrees */
+ *t1, /* buffer #1 */
+ *t2; /* buffer #2 */
+
+ /*
+ * Tree Stack
* each element of the list
* is a sub tree created
* by the use of parenthesis in the
* global expression. The final tree
- * will be the one created at the root of
+ * will be the one left at the root of
* the list
*/
- lttv_filter_tree* tree = lttv_filter_tree_new();
- lttv_filter_tree* subtree = NULL;
GPtrArray *tree_stack = g_ptr_array_new();
g_ptr_array_add( tree_stack,(gpointer) tree );
* To spare computing time, the whole
* string is parsed in this loop for a
* O(n) complexity order.
- */
-
- /*
+ *
* When encountering logical op &,|,^
* 1. parse the last value if any
* 2. create a new tree
a_field_path = g_ptr_array_new();
g_ptr_array_set_size(a_field_path,2); /* by default, recording 2 field expressions */
- lttv_filter_tree *t1, *t2;
for(i=0;i<strlen(expression);i++) {
// g_print("%s\n",a_field_component->str);
g_print("%c ",expression[i]);
+// g_print("switch:%c -->subtree:%p\n",expression[i],subtree);
switch(expression[i]) {
/*
* logical operators
t2 = lttv_filter_tree_new();
t2->node->type = LTTV_EXPRESSION_OP;
t2->node->e.op = LTTV_LOGICAL_AND;
- if(subtree != NULL) {
+ if(subtree != NULL) {
t2->left = LTTV_TREE_NODE;
t2->l_child.t = subtree;
subtree = NULL;
break;
case '|': /* or */
+ t1 = (lttv_filter_tree*)g_ptr_array_index(tree_stack,tree_stack->len-1);
+ while(t1->right != LTTV_TREE_UNDEFINED) t1 = t1->r_child.t;
+ t2 = lttv_filter_tree_new();
+ t2->node->type = LTTV_EXPRESSION_OP;
+ t2->node->e.op = LTTV_LOGICAL_OR;
+ if(subtree != NULL) {
+ t2->left = LTTV_TREE_NODE;
+ t2->l_child.t = subtree;
+ subtree = NULL;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ } else {
+ a_simple_expression.value = a_field_component->str;
+ a_field_component = g_string_new("");
+ t2->left = LTTV_TREE_LEAF;
+ t2->l_child.leaf = g_new(lttv_simple_expression,1);
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ }
break;
case '^': /* xor */
+ t1 = (lttv_filter_tree*)g_ptr_array_index(tree_stack,tree_stack->len-1);
+ while(t1->right != LTTV_TREE_UNDEFINED) t1 = t1->r_child.t;
+ t2 = lttv_filter_tree_new();
+ t2->node->type = LTTV_EXPRESSION_OP;
+ t2->node->e.op = LTTV_LOGICAL_XOR;
+ if(subtree != NULL) {
+ t2->left = LTTV_TREE_NODE;
+ t2->l_child.t = subtree;
+ subtree = NULL;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ } else {
+ a_simple_expression.value = a_field_component->str;
+ a_field_component = g_string_new("");
+ t2->left = LTTV_TREE_LEAF;
+ t2->l_child.leaf = g_new(lttv_simple_expression,1);
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ }
break;
case '!': /* not, or not equal (math op) */
if(expression[i+1] == '=') { /* != */
a_simple_expression.op = LTTV_FIELD_NE;
i++;
} else { /* ! */
- g_print("%s\n",a_field_component);
- a_field_component = g_string_new("");
+ // g_print("%s\n",a_field_component);
+ // a_field_component = g_string_new("");
+ t1 = (lttv_filter_tree*)g_ptr_array_index(tree_stack,tree_stack->len-1);
+ while(t1->right != LTTV_TREE_UNDEFINED) t1 = t1->r_child.t;
+ t2 = lttv_filter_tree_new();
+ t2->node->type = LTTV_EXPRESSION_OP;
+ t2->node->e.op = LTTV_LOGICAL_NOT;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
}
break;
case '(': /* start of parenthesis */
case '[':
case '{':
p_nesting++; /* incrementing parenthesis nesting value */
- lttv_filter_tree* subtree = lttv_filter_tree_new();
- g_ptr_array_add( tree_stack,(gpointer) subtree );
+ t1 = lttv_filter_tree_new();
+ g_ptr_array_add( tree_stack,(gpointer) t1 );
break;
case ')': /* end of parenthesis */
case ']':
t1->right = LTTV_TREE_LEAF;
t1->r_child.leaf = g_new(lttv_simple_expression,1);
subtree = g_ptr_array_index(tree_stack,tree_stack->len-1);
+ g_assert(subtree != NULL);
g_ptr_array_remove_index(tree_stack,tree_stack->len-1);
}
- /* lttv_filter_tree *sub1 = g_ptr_array_index(tree_list,tree_list->len-1);
- lttv_filter_tree *sub2 = g_ptr_array_index(tree_list,tree_list->len);
- if(sub1->left == LTTV_TREE_UNDEFINED){
- sub1->l_child.t = sub2;
- sub1->left = LTTV_TREE_NODE;
- } else if(sub1->right == LTTV_TREE_UNDEFINED){
- sub1->r_child.t = sub2;
- sub1->right = LTTV_TREE_NODE;
- } else g_error("error during tree assignation");
- g_ptr_array_remove_index(tree_list,tree_list->len);
- break;
- */
- // subtree = g_ptr_array_index(tree_stack,tree_stack->len);
- // g_ptr_array_remove_index(tree_stack,tree_stack->len);
break;
/*
g_string_append_c(a_field_component,expression[i]);
}
}
-
+
+ g_print("subtree:%p, tree:%p, t1:%p, t2:%p\n",subtree,tree,t1,t2);
+
/* processing last element of expression */
g_assert(tree_stack->len==1); /* only root tree should remain */
t1 = g_ptr_array_index(tree_stack,tree_stack->len-1);
return NULL;
}
+ lttv_filter_tracefile(tree,NULL);
+
return tree;
}
* @return success/failure of operation
*/
gboolean
-lttv_filter_tracefile(lttv_filter_t *filter, LttTracefile *tracefile) {
+lttv_filter_tracefile(lttv_filter_tree *filter, LttTracefile *tracefile) {
+ /*
+ * Each tree is parsed in inorder.
+ * This way, it's possible to apply the left filter of the
+ * tree, then decide whether or not the right branch should
+ * be parsed depending on the linking logical operator
+ *
+ * As for the filtering structure, since we are trying
+ * to remove elements from the trace, it might be better
+ * managing an array of all items to be removed ..
+ */
+ g_print("node:%p lchild:%p rchild:%p\n",filter,filter->l_child.t,filter->r_child.t);
+ if(filter->node->type == LTTV_EXPRESSION_OP) {
+ g_print("node type%i\n",filter->node->e.op);
+ }
+ if(filter->left == LTTV_TREE_NODE) lttv_filter_tracefile(filter->l_child.t,NULL);
+ else g_print("%p: left is %i\n",filter,filter->left);
+ if(filter->right == LTTV_TREE_NODE) lttv_filter_tracefile(filter->r_child.t,NULL);
+ else g_print("%p: right is %i\n",filter,filter->right);
/* test */
/* int i, nb;
* - why does this module need dependency with batchAnalysis ?
*/
+/*
+ * TODO
+ * - specify wich hook function will be used to call the core filter
+ */
+
static char
*a_file_name = NULL,
*a_string = NULL;
return;
}
- char* tmp;
- fscanf(a_file,"%s",tmp);
+ char* line = NULL;
+ size_t len = 0;
- if(!a_filter_string->len) {
- g_string_append(a_filter_string,tmp);
+ if(a_filter_string == NULL) {
+ a_filter_string = g_string_new("");
}
else {
g_string_append(a_filter_string,"&"); /*conjonction between expression*/
- g_string_append(a_filter_string,tmp);
+ }
+
+ while(!feof(a_file)) {
+ getline(&line,&len,a_file);
+ g_string_append(a_filter_string,line);
+ line = NULL;
}
+ lttv_filter_new(a_filter_string->str,NULL);
fclose(a_file);
}
g_print("textFilter::filter_analyze_string\n");
- a_filter_string = g_string_new("");
/*
* User may specify filtering options through static file
* and/or command line string. From these sources, an
* option string is rebuilded and sent to the filter core
*/
-// if(!a_filter_string->len) {
+ if(a_filter_string==NULL) {
+ a_filter_string = g_string_new("");
g_string_append(a_filter_string,a_string);
- lttv_filter_new(a_filter_string->str,NULL);
-// }
-// else {
-// g_string_append(a_filter_string,"&"); /*conjonction between expression*/
-// g_string_append(a_filter_string,a_string);
-// }
+ }
+ else {
+ g_string_append(a_filter_string,"&"); /*conjonction between expression*/
+ g_string_append(a_filter_string,a_string);
+ }
}
g_print("textFilter::init()\n"); /* debug */
- a_filter_string = g_string_new("");
-
LttvAttributeValue value;
LttvIAttribute *attributes = LTTV_IATTRIBUTE(lttv_global_attributes());
projects / lttv.git / commitdiff
