# /* ** CVAR -- routines to manipulate the c variable trees ** ** C variable trees are binary trees of cvar structs, ** with the c_left < c_right with respect to c_id. ** ** Defines: ** decl_cvar() -- declare a C variable ** decl_field() -- declare a structure field ** getcvar() -- get cvar node of a C variable ** getfield() -- get field's node ** freecvar() -- frees cvar tree ** ** Required By: ** semantic productions, and initialization routines ** ** Files: ** constants.h -- for globals.h ** .../fileio.h -- for globals.h ** globals.h -- for globals ** ** History: ** 6/1/78 -- (marc) written ** 8/28/78 -- (marc) modified for structure vars */ # include "../fileio.h" # include "constants.h" # include "globals.h" /* ** DECL_CVAR -- Declare a C variable ** ** Parameters: ** name -- identifier string (makes its own copy for the tree) ** type ** indir_level -- level of indirection of declaration ** (- 1 if string) ** block_level -- 0 - global, else local var ** ** Returns: ** none ** ** Side Effects: ** allocates a cvar node, and a copy of name, may put a node ** in a cvar tree (if not previously declared). ** ** Requires: ** C_locals -- local var tree ** C_globals -- global var tree ** ** Called By: ** the c_variable productions of the parser [grammar.y] ** ** Diagnostics: ** out of space diagnostics ** already declared diagnostic (node's storage is freed) ** ** History: ** 6/1/78 -- (marc) written ** 6/24/78 -- (marc) modified to take advantage of ** dec_var() */ decl_cvar(name, type, indir_level, block_level) char *name; int type; int indir_level; int block_level; { register struct cvar *bad_node; if (bad_node = dec_var(name, type, indir_level, block_level, &C_locals, &C_globals)) { yysemerr("re-declared identifier", bad_node->c_id); xfree(bad_node->c_id); xfree(bad_node); } } /* ** DECL_FIELD -- Declare a structures field ** ** Same as decl_cvar() for fields within C records (structs). ** NOTE : if a !0 is returned from dec_var() (i.e. the field ** was already declared) the storage for that node is freed ** but no error has been comitted, as fields may be re-declared. ** ** History: ** 8/24/78 -- (marc) written */ decl_field(name, type, indir_level, block_level) char *name; int type; int indir_level; int block_level; { register struct cvar *bad_node; if (bad_node = dec_var(name, type, indir_level, block_level, &F_locals, &F_globals)) { xfree(bad_node->c_id); xfree(bad_node); } } /* ** DEC_VAR -- declare a C var or field. ** ** Parameters: ** same as decl_cvar() & decl_field plus ** the local and global tree variables. ** ** Returns: ** 0 -- successful ** other -- cvar node pointer that couldn't be entered ** to tree ** ** History: ** 8/24/78 -- (marc) written */ dec_var(name, type, indir_level, block_level, local_tree, global_tree) char *name; int type, indir_level, block_level; struct cvar **local_tree, **global_tree; { register struct cvar *cvarp; register i; cvarp = nalloc(sizeof *cvarp); if (!cvarp) { yysemerr("unable to allocate space for a variable", name); return (0); } if (!(cvarp->c_id = salloc(name))) { yysemerr("no space for variable name", name); xfree(cvarp); return (0); } cvarp->c_type = type; cvarp->c_indir = indir_level; cvarp->c_left = cvarp->c_right = 0; i = c_enter(cvarp, block_level > 0 ? local_tree : global_tree); return (i ? 0 : cvarp); } /* ** C_ENTER -- Enter a cvar node in a cvar tree ** ** Parameters: ** node -- the cvar node to insert ** root -- a pointer to the root pointer ** ** Returns: ** 1 -- if successful ** 0 -- otherwise (node of same name existed ** ** Side Effects: ** If a node of that name didn't exist one is inserted ** ** Called By: ** dec_var() ** ** ** History: ** 6/1/78 -- (marc) written ** 8/24/78 -- (marc) modified for inclusion of structures ** */ c_enter(node, root) struct cvar *node; struct cvar **root; { register char *name; register struct cvar *n, *r; r = *root; n = node; name = n->c_id; if (!r) { *root = n; return (1); } for ( ; ; ) { switch (scompare(name, 0, r->c_id, 0)) { case -1 : if (!r->c_left) { r->c_left = n; return (1); } r = r->c_left; break; case 0 : yysemerr("identifier re-declared", name); xfree(name); xfree(n); return (0); case 1 : if (!r->c_right) { r->c_right = n; return (1); } r = r->c_right; break; } } } /* ** GET_VAR -- get a cvar node from a local_tree, global_tree pair ** searching first through the local then the global. ** ** Parameters: ** id -- c_id key ** local_tree -- first tree ** global_tree -- secomd tree to search ** ** Returns: ** 0 -- if no node by that name ** otherwise -- pointer to the node ** ** History: ** 8/24/78 -- (marc) written */ struct cvar *get_var(id, local_tree, global_tree) char *id; struct cvar *local_tree, *global_tree; { register char *name; register struct cvar *tree, *node; char flag; flag = 0; name = id; tree = local_tree; for ( ; ; ) { for (node = tree; node; ) { switch (scompare(name, 0, node->c_id, 0)) { case -1 : if (!node->c_left) break; else node = node->c_left; continue; case 0 : return (node); case 1 : if (!node->c_right) break; else node = node->c_right; continue; } break; } if (!flag) { flag =+ 1; tree = global_tree; } else return (0); } } /* ** GETCVAR -- get the cvar node for a given identifier ** Looks first in C_locals, then in C_globals. ** ** Parameters: ** id -- name of cvar to look for ** ** Returns: ** adress of cvar node if found ** 0 -- otherwise ** ** Requires: ** C_locals & C_globals -- to search them ** ** Called BY: ** semantic productions ** ** History: ** 6/1/78 -- (marc) written ** */ getcvar(id) char *id; { return (get_var(id, C_locals, C_globals)); } /* ** GETFIELD -- Same as getcvar() for structure fields ** ** Requires: ** F_locals & F_globals ** ** History: ** 8/24/78 -- (marc) written */ getfield(id) char *id; { return (get_var(id, F_locals, F_globals)); } /* ** FREECVAR & F_CVAR -- Free up storage in a cvar tree ** Freecvar calls f_cvar to free storage for a tree, then ** 0's out the root pointer passed it. ** ** Usage: ** Freecvar(rootp) -- should be called to free ** a tree *rootp ** ** History: ** 6/1/78 -- (marc) written ** */ freecvar(rootp) struct cvar **rootp; { f_cvar(*rootp); *rootp = 0; } f_cvar(root) struct cvar *root; { if (root) { f_cvar(root->c_left); f_cvar(root->c_right); xfree(root->c_id); xfree(root); } }