/* ** Copyright (c) 2007 D. Richard Hipp ** ** This program is free software; you can redistribute it and/or ** modify it under the terms of the Simplified BSD License (also ** known as the "2-Clause License" or "FreeBSD License".) ** 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. ** ** Author contact information: ** drh@hwaci.com ** http://www.hwaci.com/drh/ ** ******************************************************************************* ** ** This file contains code used to find descendants of a version ** or leaves of a version tree. */ #include "config.h" #include "descendants.h" #include /* ** Create a temporary table named "leaves" if it does not ** already exist. Load this table with the RID of all ** check-ins that are leaves which are descended from ** check-in iBase. ** ** A "leaf" is a check-in that has no children in the same branch. ** There is a separate permanent table LEAF that contains all leaves ** in the tree. This routine is used to compute a subset of that ** table consisting of leaves that are descended from a single check-in. ** ** The closeMode flag determines behavior associated with the "closed" ** tag: ** ** closeMode==0 Show all leaves regardless of the "closed" tag. ** ** closeMode==1 Show only leaves without the "closed" tag. ** ** closeMode==2 Show only leaves with the "closed" tag. ** ** The default behavior is to ignore closed leaves (closeMode==0). To ** Show all leaves, use closeMode==1. To show only closed leaves, use ** closeMode==2. */ void compute_leaves(int iBase, int closeMode){ /* Create the LEAVES table if it does not already exist. Make sure ** it is empty. */ db_multi_exec( "CREATE TEMP TABLE IF NOT EXISTS leaves(" " rid INTEGER PRIMARY KEY" ");" "DELETE FROM leaves;" ); if( iBase>0 ){ Bag seen; /* Descendants seen */ Bag pending; /* Unpropagated descendants */ Stmt q1; /* Query to find children of a check-in */ Stmt isBr; /* Query to check to see if a check-in starts a new branch */ Stmt ins; /* INSERT statement for a new record */ /* Initialize the bags. */ bag_init(&seen); bag_init(&pending); bag_insert(&pending, iBase); /* This query returns all non-branch-merge children of check-in :rid. ** ** If a child is a merge of a fork within the same branch, it is ** returned. Only merge children in different branches are excluded. */ db_prepare(&q1, "SELECT cid FROM plink" " WHERE pid=:rid" " AND (isprim" " OR coalesce((SELECT value FROM tagxref" " WHERE tagid=%d AND rid=plink.pid), 'trunk')" "=coalesce((SELECT value FROM tagxref" " WHERE tagid=%d AND rid=plink.cid), 'trunk'))", TAG_BRANCH, TAG_BRANCH ); /* This query returns a single row if check-in :rid is the first ** check-in of a new branch. */ db_prepare(&isBr, "SELECT 1 FROM tagxref" " WHERE rid=:rid AND tagid=%d AND tagtype=2" " AND srcid>0", TAG_BRANCH ); /* This statement inserts check-in :rid into the LEAVES table. */ db_prepare(&ins, "INSERT OR IGNORE INTO leaves VALUES(:rid)"); while( bag_count(&pending) ){ int rid = bag_first(&pending); int cnt = 0; bag_remove(&pending, rid); db_bind_int(&q1, ":rid", rid); while( db_step(&q1)==SQLITE_ROW ){ int cid = db_column_int(&q1, 0); if( bag_insert(&seen, cid) ){ bag_insert(&pending, cid); } db_bind_int(&isBr, ":rid", cid); if( db_step(&isBr)==SQLITE_DONE ){ cnt++; } db_reset(&isBr); } db_reset(&q1); if( cnt==0 && !is_a_leaf(rid) ){ cnt++; } if( cnt==0 ){ db_bind_int(&ins, ":rid", rid); db_step(&ins); db_reset(&ins); } } db_finalize(&ins); db_finalize(&isBr); db_finalize(&q1); bag_clear(&pending); bag_clear(&seen); }else{ db_multi_exec( "INSERT INTO leaves" " SELECT leaf.rid FROM leaf" ); } if( closeMode==1 ){ db_multi_exec( "DELETE FROM leaves WHERE rid IN" " (SELECT leaves.rid FROM leaves, tagxref" " WHERE tagxref.rid=leaves.rid " " AND tagxref.tagid=%d" " AND tagxref.tagtype>0)", TAG_CLOSED ); }else if( closeMode==2 ){ db_multi_exec( "DELETE FROM leaves WHERE rid NOT IN" " (SELECT leaves.rid FROM leaves, tagxref" " WHERE tagxref.rid=leaves.rid " " AND tagxref.tagid=%d" " AND tagxref.tagtype>0)", TAG_CLOSED ); } } /* ** Load the record ID rid and up to N-1 closest ancestors into ** the "ok" table. */ void compute_ancestors(int rid, int N, int directOnly){ db_multi_exec( "WITH RECURSIVE " " ancestor(rid, mtime) AS (" " SELECT %d, mtime FROM event WHERE objid=%d " " UNION " " SELECT plink.pid, event.mtime" " FROM ancestor, plink, event" " WHERE plink.cid=ancestor.rid" " AND event.objid=plink.pid %s" " ORDER BY mtime DESC LIMIT %d" " )" "INSERT INTO ok" " SELECT rid FROM ancestor;", rid, rid, directOnly ? "AND plink.isPrim" : "", N ); } /* ** Compute all direct ancestors (merge ancestors do not count) ** for the check-in rid and put them in a table named "ancestor". ** Label each generation with consecutive integers going backwards ** in time such that rid has the smallest generation number and the oldest ** direct ancestor as the largest generation number. */ void compute_direct_ancestors(int rid){ db_multi_exec( "CREATE TEMP TABLE IF NOT EXISTS ancestor(rid INTEGER UNIQUE NOT NULL," " generation INTEGER PRIMARY KEY);" "DELETE FROM ancestor;" "WITH RECURSIVE g(x,i) AS (" " VALUES(%d,1)" " UNION ALL" " SELECT plink.pid, g.i+1 FROM plink, g" " WHERE plink.cid=g.x AND plink.isprim)" "INSERT INTO ancestor(rid,generation) SELECT x,i FROM g;", rid ); } /* ** Compute the "mtime" of the file given whose blob.rid is "fid" that ** is part of check-in "vid". The mtime will be the mtime on vid or ** some ancestor of vid where fid first appears. */ int mtime_of_manifest_file( int vid, /* The check-in that contains fid */ int fid, /* The id of the file whose check-in time is sought */ i64 *pMTime /* Write result here */ ){ static int prevVid = -1; static Stmt q; if( prevVid!=vid ){ prevVid = vid; db_multi_exec("DROP TABLE IF EXISTS temp.ok;" "CREATE TEMP TABLE ok(x INTEGER PRIMARY KEY);"); compute_ancestors(vid, 100000000, 1); } db_static_prepare(&q, "SELECT (max(event.mtime)-2440587.5)*86400 FROM mlink, event" " WHERE mlink.mid=event.objid" " AND +mlink.mid IN ok" " AND mlink.fid=:fid"); db_bind_int(&q, ":fid", fid); if( db_step(&q)!=SQLITE_ROW ){ db_reset(&q); return 1; } *pMTime = db_column_int64(&q, 0); db_reset(&q); return 0; } /* ** Load the record ID rid and up to N-1 closest descendants into ** the "ok" table. */ void compute_descendants(int rid, int N){ db_multi_exec( "WITH RECURSIVE" " dx(rid,mtime) AS (" " SELECT %d, 0" " UNION" " SELECT plink.cid, plink.mtime FROM dx, plink" " WHERE plink.pid=dx.rid" " ORDER BY 2" " )" "INSERT OR IGNORE INTO ok SELECT rid FROM dx LIMIT %d", rid, N ); } /* ** COMMAND: descendants* ** ** Usage: %fossil descendants ?CHECKIN? ?OPTIONS? ** ** Find all leaf descendants of the check-in specified or if the argument ** is omitted, of the check-in currently checked out. ** ** Options: ** -R|--repository FILE Extract info from repository FILE ** -W|--width Width of lines (default is to auto-detect). ** Must be >20 or 0 (= no limit, resulting in a ** single line per entry). ** ** See also: finfo, info, leaves */ void descendants_cmd(void){ Stmt q; int base, width; const char *zWidth; db_find_and_open_repository(0,0); zWidth = find_option("width","W",1); if( zWidth ){ width = atoi(zWidth); if( (width!=0) && (width<=20) ){ fossil_fatal("-W|--width value must be >20 or 0"); } }else{ width = -1; } /* We should be done with options.. */ verify_all_options(); if( g.argc==2 ){ base = db_lget_int("checkout", 0); }else{ base = name_to_typed_rid(g.argv[2], "ci"); } if( base==0 ) return; compute_leaves(base, 0); db_prepare(&q, "%s" " AND event.objid IN (SELECT rid FROM leaves)" " ORDER BY event.mtime DESC", timeline_query_for_tty() ); print_timeline(&q, 0, width, 0); db_finalize(&q); } /* ** COMMAND: leaves* ** ** Usage: %fossil leaves ?OPTIONS? ** ** Find leaves of all branches. By default show only open leaves. ** The -a|--all flag causes all leaves (closed and open) to be shown. ** The -c|--closed flag shows only closed leaves. ** ** The --recompute flag causes the content of the "leaf" table in the ** repository database to be recomputed. ** ** Options: ** -a|--all show ALL leaves ** --bybranch order output by branch name ** -c|--closed show only closed leaves ** -m|--multiple show only cases with multiple leaves on a single branch ** --recompute recompute the "leaf" table in the repository DB ** -W|--width Width of lines (default is to auto-detect). Must be ** >39 or 0 (= no limit, resulting in a single line per ** entry). ** ** See also: descendants, finfo, info, branch */ void leaves_cmd(void){ Stmt q; Blob sql; int showAll = find_option("all", "a", 0)!=0; int showClosed = find_option("closed", "c", 0)!=0; int recomputeFlag = find_option("recompute",0,0)!=0; int byBranch = find_option("bybranch",0,0)!=0; int multipleFlag = find_option("multiple","m",0)!=0; const char *zWidth = find_option("width","W",1); char *zLastBr = 0; int n, width; char zLineNo[10]; if( multipleFlag ) byBranch = 1; if( zWidth ){ width = atoi(zWidth); if( (width!=0) && (width<=39) ){ fossil_fatal("-W|--width value must be >39 or 0"); } }else{ width = -1; } db_find_and_open_repository(0,0); /* We should be done with options.. */ verify_all_options(); if( recomputeFlag ) leaf_rebuild(); blob_zero(&sql); blob_append(&sql, timeline_query_for_tty(), -1); if( !multipleFlag ){ /* The usual case - show all leaves */ blob_append_sql(&sql, " AND blob.rid IN leaf"); }else{ /* Show only leaves where two are more occur in the same branch */ db_multi_exec( "CREATE TEMP TABLE openLeaf(rid INTEGER PRIMARY KEY);" "INSERT INTO openLeaf(rid)" " SELECT rid FROM leaf" " WHERE NOT EXISTS(" " SELECT 1 FROM tagxref" " WHERE tagid=%d AND tagtype>0 AND rid=leaf.rid);", TAG_CLOSED ); db_multi_exec( "CREATE TEMP TABLE ambiguousBranch(brname TEXT);" "INSERT INTO ambiguousBranch(brname)" " SELECT (SELECT value FROM tagxref WHERE tagid=%d AND rid=openLeaf.rid)" " FROM openLeaf" " GROUP BY 1 HAVING count(*)>1;", TAG_BRANCH ); db_multi_exec( "CREATE TEMP TABLE ambiguousLeaf(rid INTEGER PRIMARY KEY);\n" "INSERT INTO ambiguousLeaf(rid)\n" " SELECT rid FROM openLeaf\n" " WHERE (SELECT value FROM tagxref WHERE tagid=%d AND rid=openLeaf.rid)" " IN (SELECT brname FROM ambiguousBranch);", TAG_BRANCH ); blob_append_sql(&sql, " AND blob.rid IN ambiguousLeaf"); } if( showClosed ){ blob_append_sql(&sql," AND %z", leaf_is_closed_sql("blob.rid")); }else if( !showAll ){ blob_append_sql(&sql," AND NOT %z", leaf_is_closed_sql("blob.rid")); } if( byBranch ){ db_prepare(&q, "%s ORDER BY nullif(branch,'trunk') COLLATE nocase," " event.mtime DESC", blob_sql_text(&sql)); }else{ db_prepare(&q, "%s ORDER BY event.mtime DESC", blob_sql_text(&sql)); } blob_reset(&sql); n = 0; while( db_step(&q)==SQLITE_ROW ){ const char *zId = db_column_text(&q, 1); const char *zDate = db_column_text(&q, 2); const char *zCom = db_column_text(&q, 3); const char *zBr = db_column_text(&q, 7); char *z; if( byBranch && fossil_strcmp(zBr, zLastBr)!=0 ){ fossil_print("*** %s ***\n", zBr); fossil_free(zLastBr); zLastBr = fossil_strdup(zBr); if( multipleFlag ) n = 0; } n++; sqlite3_snprintf(sizeof(zLineNo), zLineNo, "(%d)", n); fossil_print("%6s ", zLineNo); z = mprintf("%s [%S] %s", zDate, zId, zCom); comment_print(z, zCom, 7, width, g.comFmtFlags); fossil_free(z); } fossil_free(zLastBr); db_finalize(&q); } /* ** WEBPAGE: leaves ** ** Show leaf check-ins in a timeline. By default only open leaves ** are listed. ** ** A "leaf" is a check-in with no children in the same branch. A ** "closed leaf" is a leaf that has a "closed" tag. An "open leaf" ** is a leaf without a "closed" tag. ** ** Query parameters: ** ** all Show all leaves ** closed Show only closed leaves */ void leaves_page(void){ Blob sql; Stmt q; int showAll = P("all")!=0; int showClosed = P("closed")!=0; login_check_credentials(); if( !g.perm.Read ){ login_needed(g.anon.Read); return; } if( !showAll ){ style_submenu_element("All", "All", "leaves?all"); } if( !showClosed ){ style_submenu_element("Closed", "Closed", "leaves?closed"); } if( showClosed || showAll ){ style_submenu_element("Open", "Open", "leaves"); } style_header("Leaves"); login_anonymous_available(); #if 0 style_sidebox_begin("Nomenclature:", "33%"); @
    @
  1. A
    leaf
    @ is a check-in with no descendants in the same branch.
    2. @
  2. An
    open leaf
    @ is a leaf that does not have a "closed" tag @ and is thus assumed to still be in use.
    3. @
  3. A
    closed leaf
    @ has a "closed" tag and is thus assumed to @ be historical and no longer in active use.
    4. @
style_sidebox_end(); #endif if( showAll ){ @

All leaves, both open and closed:

}else if( showClosed ){ @

Closed leaves:

}else{ @

Open leaves:

} blob_zero(&sql); blob_append(&sql, timeline_query_for_www(), -1); blob_append_sql(&sql, " AND blob.rid IN leaf"); if( showClosed ){ blob_append_sql(&sql," AND %z", leaf_is_closed_sql("blob.rid")); }else if( !showAll ){ blob_append_sql(&sql," AND NOT %z", leaf_is_closed_sql("blob.rid")); } db_prepare(&q, "%s ORDER BY event.mtime DESC", blob_sql_text(&sql)); blob_reset(&sql); www_print_timeline(&q, TIMELINE_LEAFONLY, 0, 0, 0, 0); db_finalize(&q); @
style_footer(); } #if INTERFACE /* Flag parameters to compute_uses_file() */ #define USESFILE_DELETE 0x01 /* Include the check-ins where file deleted */ #endif /* ** Add to table zTab the record ID (rid) of every check-in that contains ** the file fid. */ void compute_uses_file(const char *zTab, int fid, int usesFlags){ Bag seen; Bag pending; Stmt ins; Stmt q; int rid; bag_init(&seen); bag_init(&pending); db_prepare(&ins, "INSERT OR IGNORE INTO \"%w\" VALUES(:rid)", zTab); db_prepare(&q, "SELECT mid FROM mlink WHERE fid=%d", fid); while( db_step(&q)==SQLITE_ROW ){ int mid = db_column_int(&q, 0); bag_insert(&pending, mid); bag_insert(&seen, mid); db_bind_int(&ins, ":rid", mid); db_step(&ins); db_reset(&ins); } db_finalize(&q); db_prepare(&q, "SELECT mid FROM mlink WHERE pid=%d", fid); while( db_step(&q)==SQLITE_ROW ){ int mid = db_column_int(&q, 0); bag_insert(&seen, mid); if( usesFlags & USESFILE_DELETE ){ db_bind_int(&ins, ":rid", mid); db_step(&ins); db_reset(&ins); } } db_finalize(&q); db_prepare(&q, "SELECT cid FROM plink WHERE pid=:rid AND isprim"); while( (rid = bag_first(&pending))!=0 ){ bag_remove(&pending, rid); db_bind_int(&q, ":rid", rid); while( db_step(&q)==SQLITE_ROW ){ int mid = db_column_int(&q, 0); if( bag_find(&seen, mid) ) continue; bag_insert(&seen, mid); bag_insert(&pending, mid); db_bind_int(&ins, ":rid", mid); db_step(&ins); db_reset(&ins); } db_reset(&q); } db_finalize(&q); db_finalize(&ins); bag_clear(&seen); bag_clear(&pending); }