/* * Copyright (c) 2012-2013 Stephen Williams (steve@icarus.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ # include "vvp_priv.h" # include # include static void fallback_eval(ivl_expr_t expr) { draw_eval_vec4(expr); fprintf(vvp_out, " %%pushv/str; Cast BOOL/LOGIC to string\n"); } static void string_ex_concat(ivl_expr_t expr) { unsigned repeat; assert(ivl_expr_parms(expr) != 0); assert(ivl_expr_repeat(expr) != 0); /* Push the first string onto the stack, no matter what. */ draw_eval_string(ivl_expr_parm(expr,0)); for (repeat = 0 ; repeat < ivl_expr_repeat(expr) ; repeat += 1) { unsigned idx; for (idx = (repeat==0)? 1 : 0 ; idx < ivl_expr_parms(expr) ; idx += 1) { ivl_expr_t sub = ivl_expr_parm(expr,idx); /* Special case: If operand is a string literal, then concat it using the %concati/str instruction. */ if (ivl_expr_type(sub) == IVL_EX_STRING) { fprintf(vvp_out, " %%concati/str \"%s\";\n", ivl_expr_string(sub)); continue; } draw_eval_string(sub); fprintf(vvp_out, " %%concat/str;\n"); } } } static void string_ex_property(ivl_expr_t expr) { ivl_signal_t sig = ivl_expr_signal(expr); unsigned pidx = ivl_expr_property_idx(expr); fprintf(vvp_out, " %%load/obj v%p_0;\n", sig); fprintf(vvp_out, " %%prop/str %u;\n", pidx); fprintf(vvp_out, " %%pop/obj 1, 0;\n"); } static void string_ex_signal(ivl_expr_t expr) { ivl_signal_t sig = ivl_expr_signal(expr); if (ivl_signal_data_type(sig) != IVL_VT_STRING) { fallback_eval(expr); return; } /* Special Case: If the signal is the return value of the function, then use a different opcode to get the value. */ if (signal_is_return_value(sig)) { assert(ivl_signal_dimensions(sig) == 0); fprintf(vvp_out, " %%retload/str 0; Load %s (string_ex_signal)\n", ivl_signal_basename(sig)); return; } /* Simple case: This is a simple variable. Generate a load statement to load the string into the stack. */ if (ivl_signal_dimensions(sig) == 0) { fprintf(vvp_out, " %%load/str v%p_0;\n", sig); return; } /* There is a word select expression, so load the index into a register and load from the array. */ ivl_expr_t word_ex = ivl_expr_oper1(expr); int word_ix = allocate_word(); draw_eval_expr_into_integer(word_ex, word_ix); fprintf(vvp_out, " %%load/stra v%p, %d;\n", sig, word_ix); clr_word(word_ix); } static void string_ex_select(ivl_expr_t expr) { /* The sube references the expression to be selected from. */ ivl_expr_t sube = ivl_expr_oper1(expr); /* This is the select expression */ ivl_expr_t shift= ivl_expr_oper2(expr); /* Assume the sub-expression is a signal */ ivl_signal_t sig = ivl_expr_signal(sube); assert(ivl_signal_data_type(sig) == IVL_VT_DARRAY || ivl_signal_data_type(sig) == IVL_VT_QUEUE); draw_eval_expr_into_integer(shift, 3); fprintf(vvp_out, " %%load/dar/str v%p_0;\n", sig); } static void string_ex_string(ivl_expr_t expr) { const char*val = ivl_expr_string(expr); /* Special case: The elaborator converts the string "" to an 8-bit zero, which is in turn escaped to the 4-character string \000. Detect this special case and convert it back to an empty string. [Perhaps elaboration should be fixed?] */ if (ivl_expr_width(expr)==8 && (strcmp(val,"\\000") == 0)) { fprintf(vvp_out, " %%pushi/str \"\";\n"); return; } fprintf(vvp_out, " %%pushi/str \"%s\";\n", val); } static void string_ex_substr(ivl_expr_t expr) { ivl_expr_t arg; unsigned arg1; unsigned arg2; assert(ivl_expr_parms(expr) == 3); arg = ivl_expr_parm(expr,0); draw_eval_string(arg); /* Evaluate the arguments... */ arg = ivl_expr_parm(expr, 1); arg1 = allocate_word(); draw_eval_expr_into_integer(arg, arg1); arg = ivl_expr_parm(expr, 2); arg2 = allocate_word(); draw_eval_expr_into_integer(arg, arg2); fprintf(vvp_out, " %%substr %u, %u;\n", arg1, arg2); clr_word(arg1); clr_word(arg2); } static void string_ex_pop(ivl_expr_t expr) { const char*fb; ivl_expr_t arg; if (strcmp(ivl_expr_name(expr), "$ivl_darray_method$pop_back")==0) fb = "b"; else fb = "f"; arg = ivl_expr_parm(expr, 0); assert(ivl_expr_type(arg) == IVL_EX_SIGNAL); fprintf(vvp_out, " %%qpop/%s/str v%p_0;\n", fb, ivl_expr_signal(arg)); } static void draw_sfunc_string(ivl_expr_t expr) { assert(ivl_expr_value(expr) == IVL_VT_STRING); draw_vpi_sfunc_call(expr); } void draw_eval_string(ivl_expr_t expr) { switch (ivl_expr_type(expr)) { case IVL_EX_STRING: string_ex_string(expr); break; case IVL_EX_SIGNAL: string_ex_signal(expr); break; case IVL_EX_CONCAT: string_ex_concat(expr); break; case IVL_EX_PROPERTY: string_ex_property(expr); break; case IVL_EX_SELECT: string_ex_select(expr); break; case IVL_EX_SFUNC: if (strcmp(ivl_expr_name(expr), "$ivl_string_method$substr") == 0) string_ex_substr(expr); else if (strcmp(ivl_expr_name(expr), "$ivl_darray_method$pop_back")==0) string_ex_pop(expr); else if (strcmp(ivl_expr_name(expr), "$ivl_darray_method$pop_front")==0) string_ex_pop(expr); else draw_sfunc_string(expr); break; case IVL_EX_UFUNC: draw_ufunc_string(expr); break; default: fallback_eval(expr); break; } }