Mercurial > ~mikael > mcabber > hg
view mcabber/libjabber/xmlnode.c @ 1566:d64e0b2855fc
Fix display of last character in the input line when Aspell support is enabled
The rightmost character displayed in the input line was always the last
character of the line. (Reported by isbear.)
| author | Mikael Berthe <mikael@lilotux.net> |
|---|---|
| date | Sun, 08 Feb 2009 10:08:05 +0100 |
| parents | 5f43b532cc37 |
| children |
line wrap: on
line source
/* * 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 2 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, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * Copyrights * * Portions created by or assigned to Jabber.com, Inc. are * Copyright (c) 1999-2002 Jabber.com, Inc. All Rights Reserved. Contact * information for Jabber.com, Inc. is available at http://www.jabber.com/. * * Portions Copyright (c) 1998-1999 Jeremie Miller. * * Acknowledgements * * Special thanks to the Jabber Open Source Contributors for their * suggestions and support of Jabber. * */ #include "libxode.h" /* Internal routines */ xmlnode _xmlnode_new(pool p, const char* name, unsigned int type) { xmlnode result = NULL; if (type > NTYPE_LAST) return NULL; if (type != NTYPE_CDATA && name == NULL) return NULL; if (p == NULL) { p = pool_heap(1*1024); } /* Allocate & zero memory */ result = (xmlnode)pmalloco(p, sizeof(_xmlnode)); /* Initialize fields */ if (type != NTYPE_CDATA) result->name = pstrdup(p,name); result->type = type; result->p = p; return result; } static xmlnode _xmlnode_append_sibling(xmlnode lastsibling, const char* name, unsigned int type) { xmlnode result; result = _xmlnode_new(xmlnode_pool(lastsibling), name, type); if (result != NULL) { /* Setup sibling pointers */ result->prev = lastsibling; lastsibling->next = result; } return result; } static xmlnode _xmlnode_insert(xmlnode parent, const char* name, unsigned int type) { xmlnode result; if(parent == NULL || (type != NTYPE_CDATA && name == NULL)) return NULL; /* If parent->firstchild is NULL, simply create a new node for the first child */ if (parent->firstchild == NULL) { result = _xmlnode_new(parent->p, name, type); parent->firstchild = result; } /* Otherwise, append this to the lastchild */ else { result= _xmlnode_append_sibling(parent->lastchild, name, type); } result->parent = parent; parent->lastchild = result; return result; } static xmlnode _xmlnode_search(xmlnode firstsibling, const char* name, unsigned int type) { xmlnode current; /* Walk the sibling list, looking for a NTYPE_TAG xmlnode with the specified name */ current = firstsibling; while (current != NULL) { if ((current->type == type) && (j_strcmp(current->name, name) == 0)) return current; else current = current->next; } return NULL; } void _xmlnode_merge(xmlnode data) { xmlnode cur; char *merge, *scur; int imerge; /* get total size of all merged cdata */ imerge = 0; for(cur = data; cur != NULL && cur->type == NTYPE_CDATA; cur = cur->next) imerge += cur->data_sz; /* copy in current data and then spin through all of them and merge */ scur = merge = pmalloc(data->p,imerge + 1); for(cur = data; cur != NULL && cur->type == NTYPE_CDATA; cur = cur->next) { memcpy(scur,cur->data,cur->data_sz); scur += cur->data_sz; } *scur = '\0'; /* this effectively hides all of the merged-in chunks */ data->next = cur; if(cur == NULL) data->parent->lastchild = data; else cur->prev = data; /* reset data */ data->data = merge; data->data_sz = imerge; } static void _xmlnode_hide_sibling(xmlnode child) { if(child == NULL) return; if(child->prev != NULL) child->prev->next = child->next; if(child->next != NULL) child->next->prev = child->prev; } void _xmlnode_tag2str(spool s, xmlnode node, int flag) { xmlnode tmp; if(flag==0 || flag==1) { spooler(s,"<",xmlnode_get_name(node),s); tmp = xmlnode_get_firstattrib(node); while(tmp) { spooler(s," ",xmlnode_get_name(tmp),"='",strescape(xmlnode_pool(node),xmlnode_get_data(tmp)),"'",s); tmp = xmlnode_get_nextsibling(tmp); } if(flag==0) spool_add(s,"/>"); else spool_add(s,">"); } else { spooler(s,"</",xmlnode_get_name(node),">",s); } } spool _xmlnode2spool(xmlnode node) { spool s; int level=0,dir=0; xmlnode tmp; if(!node || xmlnode_get_type(node)!=NTYPE_TAG) return NULL; s = spool_new(xmlnode_pool(node)); if(!s) return(NULL); while(1) { if(dir==0) { if(xmlnode_get_type(node) == NTYPE_TAG) { if(xmlnode_has_children(node)) { _xmlnode_tag2str(s,node,1); node = xmlnode_get_firstchild(node); level++; continue; }else{ _xmlnode_tag2str(s,node,0); } }else{ spool_add(s,strescape(xmlnode_pool(node),xmlnode_get_data(node))); } } tmp = xmlnode_get_nextsibling(node); if(!tmp) { node = xmlnode_get_parent(node); level--; if(level>=0) _xmlnode_tag2str(s,node,2); if(level<1) break; dir = 1; }else{ node = tmp; dir = 0; } } return s; } /* External routines */ /* * xmlnode_new_tag -- create a tag node * Automatically creates a memory pool for the node. * * parameters * name -- name of the tag * * returns * a pointer to the tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_new_tag(const char* name) { return _xmlnode_new(NULL, name, NTYPE_TAG); } /* * xmlnode_new_tag_pool -- create a tag node within given pool * * parameters * p -- previously created memory pool * name -- name of the tag * * returns * a pointer to the tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_new_tag_pool(pool p, const char* name) { return _xmlnode_new(p, name, NTYPE_TAG); } /* * xmlnode_insert_tag -- append a child tag to a tag * * parameters * parent -- pointer to the parent tag * name -- name of the child tag * * returns * a pointer to the child tag node * or NULL if it was unsuccessfull */ xmlnode xmlnode_insert_tag(xmlnode parent, const char* name) { return _xmlnode_insert(parent, name, NTYPE_TAG); } /* * xmlnode_insert_cdata -- append character data to a tag * * parameters * parent -- parent tag * CDATA -- character data * size -- size of CDATA * or -1 for null-terminated CDATA strings * * returns * a pointer to the child CDATA node * or NULL if it was unsuccessfull */ xmlnode xmlnode_insert_cdata(xmlnode parent, const char* CDATA, unsigned int size) { xmlnode result; if(CDATA == NULL || parent == NULL) return NULL; if(size == (unsigned int)-1) size = strlen(CDATA); result = _xmlnode_insert(parent, NULL, NTYPE_CDATA); if (result != NULL) { result->data = (char*)pmalloc(result->p, size + 1); memcpy(result->data, CDATA, size); result->data[size] = '\0'; result->data_sz = size; } return result; } /* * xmlnode_get_tag -- find given tag in an xmlnode tree * * parameters * parent -- pointer to the parent tag * name -- "name" for the child tag of that name * "name/name" for a sub child (recurses) * "?attrib" to match the first tag with that attrib defined * "?attrib=value" to match the first tag with that attrib and value * "=cdata" to match the cdata contents of the child * or any combination: "name/name/?attrib", "name=cdata", etc * * results * a pointer to the tag matching search criteria * or NULL if search was unsuccessfull */ xmlnode xmlnode_get_tag(xmlnode parent, const char* name) { char *str, *slash, *qmark, *equals; xmlnode step, ret; if(parent == NULL || parent->firstchild == NULL || name == NULL || name == '\0') return NULL; if(strstr(name, "/") == NULL && strstr(name,"?") == NULL && strstr(name, "=") == NULL) return _xmlnode_search(parent->firstchild, name, NTYPE_TAG); str = strdup(name); slash = strstr(str, "/"); qmark = strstr(str, "?"); equals = strstr(str, "="); if(equals != NULL && (slash == NULL || equals < slash) && (qmark == NULL || equals < qmark)) { /* of type =cdata */ *equals = '\0'; equals++; for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(*str != '\0') if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; if(j_strcmp(xmlnode_get_data(step),equals) != 0) continue; break; } free(str); return step; } if(qmark != NULL && (slash == NULL || qmark < slash)) { /* of type ?attrib */ *qmark = '\0'; qmark++; if(equals != NULL) { *equals = '\0'; equals++; } for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(*str != '\0') if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; if(xmlnode_get_attrib(step,qmark) == NULL) continue; if(equals != NULL && j_strcmp(xmlnode_get_attrib(step,qmark),equals) != 0) continue; break; } free(str); return step; } *slash = '\0'; ++slash; for(step = parent->firstchild; step != NULL; step = xmlnode_get_nextsibling(step)) { if(xmlnode_get_type(step) != NTYPE_TAG) continue; if(j_strcmp(xmlnode_get_name(step),str) != 0) continue; ret = xmlnode_get_tag(step, slash); if(ret != NULL) { free(str); return ret; } } free(str); return NULL; } /* return the cdata from any tag */ char *xmlnode_get_tag_data(xmlnode parent, const char *name) { xmlnode tag; tag = xmlnode_get_tag(parent, name); if(tag == NULL) return NULL; return xmlnode_get_data(tag); } void xmlnode_put_attrib(xmlnode owner, const char* name, const char* value) { xmlnode attrib; if(owner == NULL || name == NULL || value == NULL) return; /* If there are no existing attributs, allocate a new one to start the list */ if (owner->firstattrib == NULL) { attrib = _xmlnode_new(owner->p, name, NTYPE_ATTRIB); owner->firstattrib = attrib; owner->lastattrib = attrib; } else { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if(attrib == NULL) { attrib = _xmlnode_append_sibling(owner->lastattrib, name, NTYPE_ATTRIB); owner->lastattrib = attrib; } } /* Update the value of the attribute */ attrib->data_sz = strlen(value); attrib->data = pstrdup(owner->p, value); } char* xmlnode_get_attrib(xmlnode owner, const char* name) { xmlnode attrib; if (owner != NULL && owner->firstattrib != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib != NULL) return (char*)attrib->data; } return NULL; } void xmlnode_put_vattrib(xmlnode owner, const char* name, void *value) { xmlnode attrib; if (owner != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib == NULL) { xmlnode_put_attrib(owner, name, ""); attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); } if (attrib != NULL) attrib->firstchild = (xmlnode)value; } } void* xmlnode_get_vattrib(xmlnode owner, const char* name) { xmlnode attrib; if (owner != NULL && owner->firstattrib != NULL) { attrib = _xmlnode_search(owner->firstattrib, name, NTYPE_ATTRIB); if (attrib != NULL) return (void*)attrib->firstchild; } return NULL; } xmlnode xmlnode_get_firstattrib(xmlnode parent) { if (parent != NULL) return parent->firstattrib; return NULL; } xmlnode xmlnode_get_firstchild(xmlnode parent) { if (parent != NULL) return parent->firstchild; return NULL; } xmlnode xmlnode_get_lastchild(xmlnode parent) { if (parent != NULL) return parent->lastchild; return NULL; } xmlnode xmlnode_get_nextsibling(xmlnode sibling) { if (sibling != NULL) return sibling->next; return NULL; } xmlnode xmlnode_get_prevsibling(xmlnode sibling) { if (sibling != NULL) return sibling->prev; return NULL; } xmlnode xmlnode_get_parent(xmlnode node) { if (node != NULL) return node->parent; return NULL; } char* xmlnode_get_name(xmlnode node) { if (node != NULL) return node->name; return NULL; } char* xmlnode_get_data(xmlnode node) { if(xmlnode_get_type(node) == NTYPE_TAG) /* loop till we find a CDATA in the children */ for(node = xmlnode_get_firstchild(node); node != NULL; node = xmlnode_get_nextsibling(node)) if(xmlnode_get_type(node) == NTYPE_CDATA) break; if(node == NULL) return NULL; /* check for a dirty node w/ unassembled cdata chunks */ if(xmlnode_get_type(node->next) == NTYPE_CDATA) _xmlnode_merge(node); return node->data; } int xmlnode_get_datasz(xmlnode node) { if(xmlnode_get_type(node) != NTYPE_CDATA) return 0; /* check for a dirty node w/ unassembled cdata chunks */ if(xmlnode_get_type(node->next) == NTYPE_CDATA) _xmlnode_merge(node); return node->data_sz; } int xmlnode_get_type(xmlnode node) { if (node != NULL) return node->type; return NTYPE_UNDEF; } int xmlnode_has_children(xmlnode node) { if ((node != NULL) && (node->firstchild != NULL)) return 1; return 0; } int xmlnode_has_attribs(xmlnode node) { if ((node != NULL) && (node->firstattrib != NULL)) return 1; return 0; } pool xmlnode_pool(xmlnode node) { if (node != NULL) return node->p; return (pool)NULL; } void xmlnode_hide(xmlnode child) { xmlnode parent; if(child == NULL || child->parent == NULL) return; parent = child->parent; /* first fix up at the child level */ _xmlnode_hide_sibling(child); /* next fix up at the parent level */ if(parent->firstchild == child) parent->firstchild = child->next; if(parent->lastchild == child) parent->lastchild = child->prev; } void xmlnode_hide_attrib(xmlnode parent, const char *name) { xmlnode attrib; if(parent == NULL || parent->firstattrib == NULL || name == NULL) return; attrib = _xmlnode_search(parent->firstattrib, name, NTYPE_ATTRIB); if(attrib == NULL) return; /* first fix up at the child level */ _xmlnode_hide_sibling(attrib); /* next fix up at the parent level */ if(parent->firstattrib == attrib) parent->firstattrib = attrib->next; if(parent->lastattrib == attrib) parent->lastattrib = attrib->prev; } /* * xmlnode2str -- convert given xmlnode tree into a string * * parameters * node -- pointer to the xmlnode structure * * results * a pointer to the created string * or NULL if it was unsuccessfull */ char *xmlnode2str(xmlnode node) { return spool_print(_xmlnode2spool(node)); } /* * xmlnode2tstr -- convert given xmlnode tree into a newline terminated string * * parameters * node -- pointer to the xmlnode structure * * results * a pointer to the created string * or NULL if it was unsuccessfull */ char* xmlnode2tstr(xmlnode node) { spool s = _xmlnode2spool(node); if (s != NULL) spool_add(s, "\n"); return spool_print(s); } /* loop through both a and b comparing everything, attribs, cdata, children, etc */ int xmlnode_cmp(xmlnode a, xmlnode b) { int ret = 0; while(1) { if(a == NULL && b == NULL) return 0; if(a == NULL || b == NULL) return -1; if(xmlnode_get_type(a) != xmlnode_get_type(b)) return -1; switch(xmlnode_get_type(a)) { case NTYPE_ATTRIB: ret = j_strcmp(xmlnode_get_name(a), xmlnode_get_name(b)); if(ret != 0) return -1; ret = j_strcmp(xmlnode_get_data(a), xmlnode_get_data(b)); if(ret != 0) return -1; break; case NTYPE_TAG: ret = j_strcmp(xmlnode_get_name(a), xmlnode_get_name(b)); if(ret != 0) return -1; ret = xmlnode_cmp(xmlnode_get_firstattrib(a), xmlnode_get_firstattrib(b)); if(ret != 0) return -1; ret = xmlnode_cmp(xmlnode_get_firstchild(a), xmlnode_get_firstchild(b)); if(ret != 0) return -1; break; case NTYPE_CDATA: ret = j_strcmp(xmlnode_get_data(a), xmlnode_get_data(b)); if(ret != 0) return -1; } a = xmlnode_get_nextsibling(a); b = xmlnode_get_nextsibling(b); } } xmlnode xmlnode_insert_tag_node(xmlnode parent, xmlnode node) { xmlnode child; child = xmlnode_insert_tag(parent, xmlnode_get_name(node)); if (xmlnode_has_attribs(node)) xmlnode_insert_node(child, xmlnode_get_firstattrib(node)); if (xmlnode_has_children(node)) xmlnode_insert_node(child, xmlnode_get_firstchild(node)); return child; } /* places copy of node and node's siblings in parent */ void xmlnode_insert_node(xmlnode parent, xmlnode node) { if(node == NULL || parent == NULL) return; while(node != NULL) { switch(xmlnode_get_type(node)) { case NTYPE_ATTRIB: xmlnode_put_attrib(parent, xmlnode_get_name(node), xmlnode_get_data(node)); break; case NTYPE_TAG: xmlnode_insert_tag_node(parent, node); break; case NTYPE_CDATA: xmlnode_insert_cdata(parent, xmlnode_get_data(node), xmlnode_get_datasz(node)); } node = xmlnode_get_nextsibling(node); } } /* produce full duplicate of x with a new pool, x must be a tag! */ xmlnode xmlnode_dup(xmlnode x) { xmlnode x2; if(x == NULL) return NULL; x2 = xmlnode_new_tag(xmlnode_get_name(x)); if (xmlnode_has_attribs(x)) xmlnode_insert_node(x2, xmlnode_get_firstattrib(x)); if (xmlnode_has_children(x)) xmlnode_insert_node(x2, xmlnode_get_firstchild(x)); return x2; } xmlnode xmlnode_dup_pool(pool p, xmlnode x) { xmlnode x2; if(x == NULL) return NULL; x2 = xmlnode_new_tag_pool(p, xmlnode_get_name(x)); if (xmlnode_has_attribs(x)) xmlnode_insert_node(x2, xmlnode_get_firstattrib(x)); if (xmlnode_has_children(x)) xmlnode_insert_node(x2, xmlnode_get_firstchild(x)); return x2; } xmlnode xmlnode_wrap(xmlnode x,const char *wrapper) { xmlnode wrap; if(x==NULL||wrapper==NULL) return NULL; wrap=xmlnode_new_tag_pool(xmlnode_pool(x),wrapper); if(wrap==NULL) return NULL; wrap->firstchild=x; wrap->lastchild=x; x->parent=wrap; return wrap; } void xmlnode_free(xmlnode node) { if(node == NULL) return; pool_free(node->p); }