WIP: devel : travail du mois de mars/avril #28

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neox wants to merge 24 commits from devel into devel_orig
1 changed files with 32 additions and 375 deletions
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@ -202,6 +202,38 @@ xmlNodePtr model_copy_node(struct model_t *self,
return copiedNode;
}
/**
* Iterates over all sibling nodes of a given node, typically used to process
* each child of a specific parent node.
*
* This function takes a starting node (expected to be a parent node like <states>)
* and iterates through all of its child nodes.
* It calls a user-provided callback function for each child node that is an
* element node (ignores text and other types of nodes).
*
* @param node The starting node whose siblings (children) will be iterated
* over. This node is not processed by the callback, only its siblings are.
* @param processNode A callback function that will be called for each sibling
* node. This function should have a signature of
* void functionName(xmlNodePtr node, void* userData), where
* 'node' is the current sibling element node, and
* 'userData' is a pointer to user-defined data passed
* through iterateSiblings.
* @param userData A void pointer to user-defined data. This can be used to pass
* additional information to the callback function. It is passed
* directly through to the callback function as its second argument.
*/
void model_iterate_node(xmlNodePtr node,
void (*processNode)(xmlNodePtr node, void* userData), void* userData)
{
for (xmlNodePtr curNode = node->children; curNode; curNode = curNode->next) {
if (curNode->type == XML_ELEMENT_NODE) {
processNode (curNode, userData);
}
}
}
/* -------------------------------------------------------------------------- */
char model_get_dim (struct model_t *self)
@ -242,381 +274,6 @@ char model_get_multiplicity (struct model_t *self)
return 0;
}
bool model_get_next_state (struct model_t *self, char *new_state_id)
{
static xmlNodePtr cur_node = NULL;
xmlAttr *attribute;
xmlChar *value;
if (cur_node == NULL) {
// Get first state
cur_node = model_get_node(self, (xmlChar *)"savedstates/state");
} else {
// Get next state
if (cur_node->next)
cur_node = cur_node->next;
else
return false;
}
// Lookup in properties
if (model_get_node_str_attrib(cur_node, "id", new_state_id))
return true;
cur_node = NULL;
return false;
}
long model_get_state_arrows_count (struct model_t *self, const char *state_id)
{
xmlNodePtr cur_node = NULL;
xmlAttr *attribute;
long value = 0;
bool found = false;
char temp_char[25];
uint check = 0; // bit field checker
//printf("NEW CALL : cur_node = %p\n", cur_node);
assert(state_id);
// Get first state node
cur_node = model_get_node(self, (xmlChar *)"savedstates/state");
// Lookup in properties
while (cur_node && cur_node->properties) {
attribute = cur_node->properties;
// Look for the id attribute
if (model_get_node_str_attrib(cur_node, "id", &temp_char)) {
if (!xmlStrcmp(temp_char, (const xmlChar *)state_id)) {
found = true;
break;
}
}
cur_node = cur_node->next;
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return -1;
}
// Count arrows
if (cur_node->children) {
cur_node = cur_node->children;
while (cur_node) {
if (!xmlStrcmp(cur_node->name, (const xmlChar *)"arrow"))
value++;
cur_node = cur_node->next;
}
} else {
return -1;
}
return value;
}
bool model_get_next_arrow (struct model_t *self,
struct arrow_t *new_arrow,
const char *state_id,
char dimension)
{
static xmlNodePtr cur_node = NULL;
xmlAttr *attribute;
xmlChar *value;
bool found = false;
char temp_char[25];
uint check = 0; // bit field checker
//printf("NEW CALL : cur_node = %p\n", cur_node);
assert(new_arrow);
assert(state_id);
if (cur_node == NULL) {
// Get first state node
cur_node = model_get_node(self, (xmlChar *)"savedstates/state");
// Lookup in properties
while (cur_node && cur_node->properties) {
attribute = cur_node->properties;
// Look for the id attribute
if (model_get_node_str_attrib(cur_node, "id", &temp_char)) {
if (!xmlStrcmp(temp_char, (const xmlChar *)state_id)) {
found = true;
break;
}
}
cur_node = cur_node->next;
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
// Get first arrow
if (cur_node->children) {
cur_node = cur_node->children;
found = false;
while (cur_node && cur_node->name) {
if (!xmlStrcmp(cur_node->name, (const xmlChar *)"arrow")) {
found = true;
break;
}
cur_node = cur_node->next;
}
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
} else {
// Get next arrow
found = false;
while (cur_node->next) {
cur_node = cur_node->next;
if (!xmlStrcmp(cur_node->name, (const xmlChar *)"arrow")) {
found = true;
break;
}
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
}
//printf("DURING CALL : cur_node = %p\n", cur_node);
//printf("DURING CALL : cur_node->name = %s\n", cur_node->name);
// Lookup in properties
if (cur_node && cur_node->properties) {
attribute = cur_node->properties;
while(attribute && attribute->name && attribute->children) {
//printf("attr name : %s\n", attribute->name);
if (!xmlStrcmp(attribute->name, (const xmlChar *)"site")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_arrow->site = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_SITE;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"weight")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_arrow->load = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_WEIGHT;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"x")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_arrow->x = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_X;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"y")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_arrow->y = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_Y;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"z")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_arrow->z = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_Z;
}
attribute = attribute->next;
}
switch(dimension) {
case 3:
return (bool)(check & SUCCESSFUL_READ_ARROW_XYZ);
case 2:
return (bool)(check & SUCCESSFUL_READ_ARROW_XY);
case 1:
return (bool)(check & SUCCESSFUL_READ_ARROW_X);
}
}
cur_node = NULL;
return false;
}
bool model_get_next_conditions (struct model_t *self, char *new_cond_id)
{
static xmlNodePtr cur_node = NULL;
xmlAttr *attribute;
xmlChar *value;
printlog("NEW CALL : cur_node = %p\n", cur_node);
if (cur_node == NULL) {
// Get first state
cur_node = model_get_node(self, (xmlChar *)"conditions");
} else {
// Get next state
if (cur_node->next)
cur_node = cur_node->next;
else
return false;
}
printlog("END CALL : cur_node = %p\n", cur_node);
// Lookup in properties
if (model_get_node_str_attrib(cur_node, "id", new_cond_id))
return true;
cur_node = NULL;
return false;
}
bool model_get_next_condition (struct model_t *self,
struct condition_t *new_condition,
const char *cond_id,
char dimension)
{
static xmlNodePtr cur_node = NULL;
xmlAttr *attribute;
xmlChar *value;
bool found = false;
char temp_char[25];
uint check = 0; // bit field checker
printlog("NEW CALL : cur_node = %p\n", cur_node);
assert(new_condition);
assert(cond_id);
if (cur_node == NULL) {
// Get first state node
cur_node = model_get_node(self, (xmlChar *)"conditions");
// Lookup in properties
while (cur_node && cur_node->properties) {
attribute = cur_node->properties;
// Look for the id attribute
if (model_get_node_str_attrib(cur_node, "id", &temp_char)) {
if (!xmlStrcmp(temp_char, (const xmlChar *)cond_id)) {
found = true;
break;
}
}
cur_node = cur_node->next;
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
// Get first arrow
if (cur_node->children) {
cur_node = cur_node->children;
found = false;
while (cur_node && cur_node->name) {
if (!xmlStrcmp(cur_node->name, (const xmlChar *)"arrow")) {
found = true;
break;
}
cur_node = cur_node->next;
}
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
} else {
// Get next condition
found = false;
while (cur_node->next) {
cur_node = cur_node->next;
if (!xmlStrcmp(cur_node->name, (const xmlChar *)"arrow")) {
found = true;
break;
}
}
// Check if the state has been found
if (!found) {
cur_node = NULL;
return false;
}
}
printlog("DURING CALL : cur_node = %p\n", cur_node);
printlog("DURING CALL : cur_node->name = %s\n", cur_node->name);
// Lookup in properties
if (cur_node && cur_node->properties) {
attribute = cur_node->properties;
while(attribute && attribute->name && attribute->children) {
//printf("attr name : %s\n", attribute->name);
if (!xmlStrcmp(attribute->name, (const xmlChar *)"site")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_condition->site = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_SITE;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"weight")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_condition->load = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_WEIGHT;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"x")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_condition->x = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_X;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"y")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_condition->y = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_Y;
}
if (!xmlStrcmp(attribute->name, (const xmlChar *)"z")) {
value = xmlNodeListGetString(cur_node->doc, attribute->children, 1);
new_condition->z = strtol((char *)value, NULL, 0);
xmlFree(value);
check |= READ_Z;
}
attribute = attribute->next;
}
switch(dimension) {
case 3:
return (bool)(check & SUCCESSFUL_READ_ARROW_XYZ);
case 2:
return (bool)(check & SUCCESSFUL_READ_ARROW_XY);
case 1:
return (bool)(check & SUCCESSFUL_READ_ARROW_X);
}
}
cur_node = NULL;
return false;
}
/* -------------------------------------------------------------------------- */
static bool model_init(struct model_t *self)