/* * aegis - project change supervisor * Copyright (C) 1997, 1999 Peter Miller; * All rights reserved. * * 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, USA. * * MANIFEST: functions to manipulate rounds */ #include #include #include #include #include #include /* for assert */ #include #include static int round_verify _((rpt_expr_ty *)); static int round_verify(ep) rpt_expr_ty *ep; { return (ep->nchild == 1); } static rpt_value_ty *round_run _((rpt_expr_ty *, size_t, rpt_value_ty **)); static rpt_value_ty * round_run(ep, argc, argv) rpt_expr_ty *ep; size_t argc; rpt_value_ty **argv; { double n; rpt_value_ty *tmp; string_ty *s; rpt_value_ty *result; /* * See if it looks like a number. */ assert(argc == 1); tmp = rpt_value_realize(argv[0]); if (tmp->method->type != rpt_value_type_real) { sub_context_ty *scp; rpt_value_free(tmp); scp = sub_context_new(); sub_var_set_charstar(scp, "Function", "round"); sub_var_set_charstar(scp, "Name", argv[0]->method->name); sub_var_set_charstar(scp, "Number", "1"); s = subst_intl ( scp, i18n("$function: argument $number: real value required (was given $name)") ); sub_context_delete(scp); result = rpt_value_error(ep->pos, s); str_free(s); return result; } n = rpt_value_real_query(tmp); rpt_value_free(tmp); n = floor(n + 0.5); result = rpt_value_real(n); return result; } rpt_func_ty rpt_func_round = { "round", 1, /* optimizable */ round_verify, round_run, }; static int floor_verify _((rpt_expr_ty *)); static int floor_verify(ep) rpt_expr_ty *ep; { return (ep->nchild == 1); } static rpt_value_ty *floor_run _((rpt_expr_ty *, size_t, rpt_value_ty **)); static rpt_value_ty * floor_run(ep, argc, argv) rpt_expr_ty *ep; size_t argc; rpt_value_ty **argv; { double n; rpt_value_ty *tmp; string_ty *s; rpt_value_ty *result; /* * See if it looks like a number. */ assert(argc == 1); tmp = rpt_value_realize(argv[0]); if (tmp->method->type != rpt_value_type_real) { sub_context_ty *scp; rpt_value_free(tmp); scp = sub_context_new(); sub_var_set_charstar(scp, "Function", "floor"); sub_var_set_charstar(scp, "Name", argv[0]->method->name); sub_var_set_charstar(scp, "Number", "1"); s = subst_intl ( scp, i18n("$function: argument $number: real value required (was given $name)") ); sub_context_delete(scp); result = rpt_value_error(ep->pos, s); str_free(s); return result; } n = rpt_value_real_query(tmp); rpt_value_free(tmp); n = floor(n); result = rpt_value_real(n); return result; } rpt_func_ty rpt_func_floor = { "floor", 1, /* optimizable */ floor_verify, floor_run, }; static int ceil_verify _((rpt_expr_ty *)); static int ceil_verify(ep) rpt_expr_ty *ep; { return (ep->nchild == 1); } static rpt_value_ty *ceil_run _((rpt_expr_ty *, size_t, rpt_value_ty **)); static rpt_value_ty * ceil_run(ep, argc, argv) rpt_expr_ty *ep; size_t argc; rpt_value_ty **argv; { double n; rpt_value_ty *tmp; string_ty *s; rpt_value_ty *result; /* * See if it looks like a number. */ assert(argc == 1); tmp = rpt_value_realize(argv[0]); if (tmp->method->type != rpt_value_type_real) { sub_context_ty *scp; rpt_value_free(tmp); scp = sub_context_new(); sub_var_set_charstar(scp, "Function", "ceil"); sub_var_set_charstar(scp, "Name", argv[0]->method->name); sub_var_set_charstar(scp, "Number", "1"); s = subst_intl ( scp, i18n("$function: argument $number: real value required (was given $name)") ); sub_context_delete(scp); result = rpt_value_error(ep->pos, s); str_free(s); return result; } n = rpt_value_real_query(tmp); rpt_value_free(tmp); n = ceil(n); result = rpt_value_real(n); return result; } rpt_func_ty rpt_func_ceil = { "ceil", 1, /* optimizable */ ceil_verify, ceil_run, }; static int trunc_verify _((rpt_expr_ty *)); static int trunc_verify(ep) rpt_expr_ty *ep; { return (ep->nchild == 1); } static rpt_value_ty *trunc_run _((rpt_expr_ty *, size_t, rpt_value_ty **)); static rpt_value_ty * trunc_run(ep, argc, argv) rpt_expr_ty *ep; size_t argc; rpt_value_ty **argv; { double n; rpt_value_ty *tmp; string_ty *s; rpt_value_ty *result; /* * See if it looks like a number. */ assert(argc == 1); tmp = rpt_value_realize(argv[0]); if (tmp->method->type != rpt_value_type_real) { sub_context_ty *scp; rpt_value_free(tmp); scp = sub_context_new(); sub_var_set_charstar(scp, "Function", "trunc"); sub_var_set_charstar(scp, "Name", argv[0]->method->name); sub_var_set_charstar(scp, "Number", "1"); s = subst_intl ( scp, i18n("$function: argument $number: real value required (was given $name)") ); sub_context_delete(scp); result = rpt_value_error(ep->pos, s); str_free(s); return result; } n = rpt_value_real_query(tmp); rpt_value_free(tmp); if (n >= 0) n = floor(n); else n = ceil(n); result = rpt_value_real(n); return result; } rpt_func_ty rpt_func_trunc = { "trunc", 1, /* optimizable */ trunc_verify, trunc_run, };