/* * Copyright (c) 2000 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ #ifdef HAVE_CVS_IDENT #ident "$Id: t-dll-api.cc,v 1.90 2003/01/26 21:15:59 steve Exp $" #endif # include "config.h" # include "t-dll.h" /* THE FOLLOWING ARE FUNCTIONS THAT ARE CALLED FROM THE TARGET. */ extern "C" const char*ivl_design_flag(ivl_design_t des, const char*key) { return des->self->get_flag(key).c_str(); } extern "C" int ivl_design_process(ivl_design_t des, ivl_process_f func, void*cd) { for (ivl_process_t idx = des->threads_; idx; idx = idx->next_) { int rc = (func)(idx, cd); if (rc != 0) return rc; } return 0; } extern "C" ivl_scope_t ivl_design_root(ivl_design_t des) { assert (des->nroots_); return des->roots_[0]; } extern "C" void ivl_design_roots(ivl_design_t des, ivl_scope_t **scopes, unsigned int *nscopes) { assert (nscopes && scopes); *scopes = &des->roots_[0]; *nscopes = des->nroots_; } extern "C" int ivl_design_time_precision(ivl_design_t des) { return des->time_precision; } extern "C" unsigned ivl_design_consts(ivl_design_t des) { return des->nconsts; } extern "C" ivl_net_const_t ivl_design_const(ivl_design_t des, unsigned idx) { assert(idx < des->nconsts); return des->consts[idx]; } extern "C" ivl_expr_type_t ivl_expr_type(ivl_expr_t net) { if (net == 0) return IVL_EX_NONE; return net->type_; } inline static const char *basename(ivl_scope_t scope, const char *inst) { inst += strlen(ivl_scope_name(scope)); assert(*inst == '.'); return inst+1; } extern "C" const char* ivl_memory_basename(ivl_memory_t net) { return net->basename_; } extern "C" ivl_scope_t ivl_memory_scope(ivl_memory_t net) { assert(net); return net->scope_; } extern "C" int ivl_memory_root(ivl_memory_t net) { return net->root_; } extern "C" unsigned ivl_memory_size(ivl_memory_t net) { return net->size_; } extern "C" unsigned ivl_memory_width(ivl_memory_t net) { return net->width_; } extern "C" const char*ivl_const_bits(ivl_net_const_t net) { assert(net); if (net->width_ <= sizeof(char*)) return net->b.bit_; else return net->b.bits_; } extern "C" ivl_nexus_t ivl_const_pin(ivl_net_const_t net, unsigned idx) { assert(net); assert(idx < net->width_); if (net->width_ == 1) return net->n.pin_; else return net->n.pins_[idx]; } extern "C" unsigned ivl_const_pins(ivl_net_const_t net) { assert(net); return net->width_; } extern "C" int ivl_const_signed(ivl_net_const_t net) { assert(net); return net->signed_; } extern "C" const char* ivl_event_name(ivl_event_t net) { return net->name; } extern "C" const char* ivl_event_basename(ivl_event_t net) { return basename(net->scope, net->name); } extern "C" unsigned ivl_event_nany(ivl_event_t net) { assert(net); return net->nany; } extern "C" ivl_nexus_t ivl_event_any(ivl_event_t net, unsigned idx) { assert(net); assert(idx < net->nany); return net->pins[idx]; } extern "C" unsigned ivl_event_nneg(ivl_event_t net) { assert(net); return net->nneg; } extern "C" ivl_nexus_t ivl_event_neg(ivl_event_t net, unsigned idx) { assert(net); assert(idx < net->nneg); return net->pins[net->nany + idx]; } extern "C" unsigned ivl_event_npos(ivl_event_t net) { assert(net); return net->npos; } extern "C" ivl_nexus_t ivl_event_pos(ivl_event_t net, unsigned idx) { assert(net); assert(idx < net->npos); return net->pins[net->nany + net->nneg + idx]; } extern "C" const char* ivl_expr_bits(ivl_expr_t net) { assert(net && (net->type_ == IVL_EX_NUMBER)); return net->u_.number_.bits_; } extern "C" ivl_scope_t ivl_expr_def(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_UFUNC: return net->u_.ufunc_.def; default: assert(0); } return 0; } extern "C" double ivl_expr_dvalue(ivl_expr_t net) { assert(net->type_ == IVL_EX_REALNUM); return net->u_.real_.value; } extern "C" unsigned ivl_expr_lsi(ivl_expr_t net) { switch (net->type_) { case IVL_EX_SIGNAL: return net->u_.signal_.lsi; default: assert(0); } return 0; } extern "C" const char* ivl_expr_name(ivl_expr_t net) { switch (net->type_) { case IVL_EX_SFUNC: return net->u_.sfunc_.name_; case IVL_EX_SIGNAL: return net->u_.signal_.sig->name_; case IVL_EX_VARIABLE: return net->u_.variable_.var->name; default: assert(0); } return 0; } extern "C" char ivl_expr_opcode(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_BINARY: return net->u_.binary_.op_; case IVL_EX_UNARY: return net->u_.unary_.op_; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_expr_oper1(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_BINARY: case IVL_EX_SELECT: return net->u_.binary_.lef_; case IVL_EX_BITSEL: return net->u_.bitsel_.bit; case IVL_EX_UNARY: return net->u_.unary_.sub_; case IVL_EX_MEMORY: return net->u_.memory_.idx_; case IVL_EX_TERNARY: return net->u_.ternary_.cond; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_expr_oper2(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_BINARY: case IVL_EX_SELECT: return net->u_.binary_.rig_; case IVL_EX_TERNARY: return net->u_.ternary_.true_e; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_expr_oper3(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_TERNARY: return net->u_.ternary_.false_e; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_expr_parm(ivl_expr_t net, unsigned idx) { assert(net); switch (net->type_) { case IVL_EX_CONCAT: assert(idx < net->u_.concat_.parms); return net->u_.concat_.parm[idx]; case IVL_EX_SFUNC: assert(idx < net->u_.sfunc_.parms); return net->u_.sfunc_.parm[idx]; case IVL_EX_UFUNC: assert(idx < net->u_.ufunc_.parms); return net->u_.ufunc_.parm[idx]; default: assert(0); return 0; } } extern "C" unsigned ivl_expr_parms(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_CONCAT: return net->u_.concat_.parms; case IVL_EX_SFUNC: return net->u_.sfunc_.parms; case IVL_EX_UFUNC: return net->u_.ufunc_.parms; default: assert(0); return 0; } } extern "C" unsigned ivl_expr_repeat(ivl_expr_t net) { assert(net); assert(net->type_ == IVL_EX_CONCAT); return net->u_.concat_.rept; } extern "C" ivl_scope_t ivl_expr_scope(ivl_expr_t net) { assert(net); assert(net->type_ == IVL_EX_SCOPE); return net->u_.scope_.scope; } extern "C" ivl_signal_t ivl_expr_signal(ivl_expr_t net) { assert(net); switch (net->type_) { case IVL_EX_BITSEL: return net->u_.bitsel_.sig; case IVL_EX_SIGNAL: return net->u_.signal_.sig; default: assert(0); return 0; } } extern "C" int ivl_expr_signed(ivl_expr_t net) { assert(net); return net->signed_; } extern "C" const char* ivl_expr_string(ivl_expr_t net) { assert(net->type_ == IVL_EX_STRING); return net->u_.string_.value_; } extern "C" unsigned long ivl_expr_uvalue(ivl_expr_t net) { assert(net->type_ == IVL_EX_ULONG); return net->u_.ulong_.value; } extern "C" ivl_variable_type_t ivl_expr_value(ivl_expr_t net) { assert(net); return net->value_; } extern "C" unsigned ivl_expr_width(ivl_expr_t net) { assert(net); return net->width_; } extern "C" ivl_memory_t ivl_expr_memory(ivl_expr_t net) { assert(net->type_ == IVL_EX_MEMORY); return net->u_.memory_.mem_; } extern "C" ivl_variable_t ivl_expr_variable(ivl_expr_t net) { assert(net->type_ == IVL_EX_VARIABLE); return net->u_.variable_.var; } extern "C" const char* ivl_logic_attr(ivl_net_logic_t net, const char*key) { assert(net); unsigned idx; for (idx = 0 ; idx < net->nattr ; idx += 1) { if (strcmp(net->attr[idx].key, key) == 0) return net->attr[idx].type == IVL_ATT_STR ? net->attr[idx].val.str : 0; } return 0; } extern "C" unsigned ivl_logic_attr_cnt(ivl_net_logic_t net) { return net->nattr; } extern "C" ivl_attribute_t ivl_logic_attr_val(ivl_net_logic_t net, unsigned idx) { assert(idx < net->nattr); return net->attr + idx; } extern "C" const char* ivl_logic_name(ivl_net_logic_t net) { assert(net); return net->name_; } extern "C" const char* ivl_logic_basename(ivl_net_logic_t net) { return basename(net->scope_, net->name_); } extern "C" ivl_scope_t ivl_logic_scope(ivl_net_logic_t net) { assert(net); return net->scope_; } extern "C" ivl_logic_t ivl_logic_type(ivl_net_logic_t net) { return net->type_; } extern "C" unsigned ivl_logic_pins(ivl_net_logic_t net) { return net->npins_; } extern "C" ivl_nexus_t ivl_logic_pin(ivl_net_logic_t net, unsigned pin) { assert(pin < net->npins_); return net->pins_[pin]; } extern "C" ivl_udp_t ivl_logic_udp(ivl_net_logic_t net) { assert(net->type_ == IVL_LO_UDP); assert(net->udp); return net->udp; } extern "C" unsigned ivl_logic_delay(ivl_net_logic_t net, unsigned transition) { assert(transition < 3); return net->delay[transition]; } extern "C" unsigned ivl_udp_sequ(ivl_udp_t net) { return net->sequ; } extern "C" unsigned ivl_udp_nin(ivl_udp_t net) { return net->nin; } extern "C" unsigned ivl_udp_init(ivl_udp_t net) { return net->init; } extern "C" const char* ivl_udp_row(ivl_udp_t net, unsigned idx) { assert(idx < net->nrows); assert(net->table); assert(net->table[idx]); return net->table[idx]; } extern "C" unsigned ivl_udp_rows(ivl_udp_t net) { return net->nrows; } extern "C" const char* ivl_udp_name(ivl_udp_t net) { assert(net->name); return net->name; } extern "C" const char* ivl_lpm_basename(ivl_lpm_t net) { return basename(net->scope, net->name); } extern "C" ivl_nexus_t ivl_lpm_async_clr(ivl_lpm_t net) { assert(net); switch(net->type) { case IVL_LPM_FF: return net->u_.ff.aclr; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_async_set(ivl_lpm_t net) { assert(net); switch(net->type) { case IVL_LPM_FF: return net->u_.ff.aset; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_clk(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_FF: case IVL_LPM_RAM: return net->u_.ff.clk; default: assert(0); return 0; } } extern "C" ivl_expr_t ivl_lpm_aset_value(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_FF: case IVL_LPM_RAM: return net->u_.ff.aset_value; default: assert(0); return 0; } } extern "C" ivl_scope_t ivl_lpm_define(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_UFUNC: return net->u_.ufunc.def; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_enable(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_RAM: case IVL_LPM_FF: return net->u_.ff.we; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_data(ivl_lpm_t net, unsigned idx) { assert(net); switch (net->type) { case IVL_LPM_ADD: case IVL_LPM_CMP_EQ: case IVL_LPM_CMP_GE: case IVL_LPM_CMP_GT: case IVL_LPM_CMP_NE: case IVL_LPM_DIVIDE: case IVL_LPM_MOD: case IVL_LPM_MULT: case IVL_LPM_SUB: assert(idx < net->u_.arith.width); return net->u_.arith.a[idx]; case IVL_LPM_SHIFTL: case IVL_LPM_SHIFTR: assert(idx < net->u_.shift.width); return net->u_.shift.d[idx]; case IVL_LPM_FF: case IVL_LPM_RAM: assert(idx < net->u_.ff.width); if (net->u_.ff.width == 1) return net->u_.ff.d.pin; else return net->u_.ff.d.pins[idx]; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_datab(ivl_lpm_t net, unsigned idx) { assert(net); switch (net->type) { case IVL_LPM_ADD: case IVL_LPM_CMP_EQ: case IVL_LPM_CMP_GE: case IVL_LPM_CMP_GT: case IVL_LPM_CMP_NE: case IVL_LPM_DIVIDE: case IVL_LPM_MOD: case IVL_LPM_MULT: case IVL_LPM_SUB: assert(idx < net->u_.arith.width); return net->u_.arith.b[idx]; default: assert(0); return 0; } } extern "C" ivl_nexus_t ivl_lpm_data2(ivl_lpm_t net, unsigned sdx, unsigned idx) { assert(net); switch (net->type) { case IVL_LPM_MUX: assert(sdx < net->u_.mux.size); assert(idx < net->u_.mux.width); return net->u_.mux.d[sdx*net->u_.mux.width + idx]; case IVL_LPM_UFUNC: { sdx += 1; /* skip the output port. */ assert(sdx < net->u_.ufunc.ports); assert(idx < net->u_.ufunc.port_wid[sdx]); unsigned base = 0; for (unsigned i = 0 ; i < sdx ; i += 1) base += net->u_.ufunc.port_wid[i]; return net->u_.ufunc.pins[base+idx]; } default: assert(0); return 0; } } extern "C" unsigned ivl_lpm_data2_width(ivl_lpm_t net, unsigned sdx) { assert(net); switch (net->type) { case IVL_LPM_UFUNC: sdx += 1; /* skip the output port. */ assert(sdx < net->u_.ufunc.ports); return net->u_.ufunc.port_wid[sdx]; default: assert(0); return 0; } } extern "C" const char* ivl_lpm_name(ivl_lpm_t net) { return net->name; } extern "C" ivl_nexus_t ivl_lpm_q(ivl_lpm_t net, unsigned idx) { assert(net); switch (net->type) { case IVL_LPM_ADD: case IVL_LPM_DIVIDE: case IVL_LPM_MOD: case IVL_LPM_MULT: case IVL_LPM_SUB: assert(idx < net->u_.arith.width); return net->u_.arith.q[idx]; case IVL_LPM_CMP_GE: case IVL_LPM_CMP_GT: case IVL_LPM_CMP_EQ: case IVL_LPM_CMP_NE: assert(idx == 0); return net->u_.arith.q[0]; case IVL_LPM_FF: case IVL_LPM_RAM: assert(idx < net->u_.ff.width); if (net->u_.ff.width == 1) return net->u_.ff.q.pin; else return net->u_.ff.q.pins[idx]; case IVL_LPM_MUX: assert(idx < net->u_.mux.width); if (net->u_.mux.width == 1) return net->u_.mux.q.pin; else return net->u_.mux.q.pins[idx]; case IVL_LPM_SHIFTL: case IVL_LPM_SHIFTR: assert(idx < net->u_.shift.width); return net->u_.shift.q[idx]; case IVL_LPM_UFUNC: assert(idx < net->u_.ufunc.port_wid[0]); return net->u_.ufunc.pins[idx]; default: assert(0); return 0; } } extern "C" ivl_scope_t ivl_lpm_scope(ivl_lpm_t net) { assert(net); return net->scope; } extern "C" ivl_nexus_t ivl_lpm_select(ivl_lpm_t net, unsigned idx) { switch (net->type) { case IVL_LPM_RAM: assert(idx < net->u_.ff.swid); if (net->u_.ff.swid == 1) return net->u_.ff.s.pin; else return net->u_.ff.s.pins[idx]; case IVL_LPM_MUX: assert(idx < net->u_.mux.swid); if (net->u_.mux.swid == 1) return net->u_.mux.s.pin; else return net->u_.mux.s.pins[idx]; case IVL_LPM_SHIFTL: case IVL_LPM_SHIFTR: assert(idx < net->u_.shift.select); return net->u_.shift.s[idx]; default: assert(0); return 0; } } extern "C" unsigned ivl_lpm_selects(ivl_lpm_t net) { switch (net->type) { case IVL_LPM_RAM: return net->u_.ff.swid; case IVL_LPM_MUX: return net->u_.mux.swid; case IVL_LPM_SHIFTL: case IVL_LPM_SHIFTR: return net->u_.shift.select; default: assert(0); return 0; } } extern "C" unsigned ivl_lpm_size(ivl_lpm_t net) { switch (net->type) { case IVL_LPM_MUX: return net->u_.mux.size; case IVL_LPM_UFUNC: return net->u_.ufunc.ports - 1; default: assert(0); return 0; } } extern "C" ivl_lpm_type_t ivl_lpm_type(ivl_lpm_t net) { return net->type; } extern "C" unsigned ivl_lpm_width(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_FF: case IVL_LPM_RAM: return net->u_.ff.width; case IVL_LPM_MUX: return net->u_.mux.width; case IVL_LPM_ADD: case IVL_LPM_CMP_EQ: case IVL_LPM_CMP_GE: case IVL_LPM_CMP_GT: case IVL_LPM_CMP_NE: case IVL_LPM_DIVIDE: case IVL_LPM_MOD: case IVL_LPM_MULT: case IVL_LPM_SUB: return net->u_.arith.width; case IVL_LPM_SHIFTL: case IVL_LPM_SHIFTR: return net->u_.shift.width; case IVL_LPM_UFUNC: return net->u_.ufunc.port_wid[0]; default: assert(0); return 0; } } extern "C" ivl_memory_t ivl_lpm_memory(ivl_lpm_t net) { assert(net); switch (net->type) { case IVL_LPM_RAM: return net->u_.ff.mem; default: assert(0); return 0; } } extern "C" ivl_expr_t ivl_lval_mux(ivl_lval_t net) { assert(net); if (net->type_ == IVL_LVAL_MUX) return net->idx; return 0x0; } extern "C" ivl_expr_t ivl_lval_idx(ivl_lval_t net) { assert(net); if (net->type_ == IVL_LVAL_MEM) return net->idx; return 0x0; } extern "C" ivl_memory_t ivl_lval_mem(ivl_lval_t net) { assert(net); if (net->type_ == IVL_LVAL_MEM) return net->n.mem; return 0x0; } extern "C" ivl_variable_t ivl_lval_var(ivl_lval_t net) { assert(net); if (net->type_ == IVL_LVAL_VAR) return net->n.var; return 0x0; } extern "C" unsigned ivl_lval_part_off(ivl_lval_t net) { assert(net); return net->loff_; } extern "C" unsigned ivl_lval_pins(ivl_lval_t net) { assert(net); return net->width_; } extern "C" ivl_nexus_t ivl_lval_pin(ivl_lval_t net, unsigned idx) { assert(net); assert(idx < net->width_); assert(net->type_ != IVL_LVAL_MEM); return ivl_signal_pin(net->n.sig, idx+net->loff_); } extern "C" ivl_signal_t ivl_lval_sig(ivl_lval_t net) { assert(net); return net->n.sig; } extern "C" const char* ivl_nexus_name(ivl_nexus_t net) { assert(net); return net->name_; } extern "C" void* ivl_nexus_get_private(ivl_nexus_t net) { assert(net); return net->private_data; } extern "C" void ivl_nexus_set_private(ivl_nexus_t net, void*data) { assert(net); net->private_data = data; } extern "C" unsigned ivl_nexus_ptrs(ivl_nexus_t net) { assert(net); return net->nptr_; } extern "C" ivl_nexus_ptr_t ivl_nexus_ptr(ivl_nexus_t net, unsigned idx) { assert(net); assert(idx < net->nptr_); return net->ptrs_ + idx; } extern "C" ivl_drive_t ivl_nexus_ptr_drive0(ivl_nexus_ptr_t net) { assert(net); return (ivl_drive_t)(net->drive0); } extern "C" ivl_drive_t ivl_nexus_ptr_drive1(ivl_nexus_ptr_t net) { assert(net); return (ivl_drive_t)(net->drive1); } extern "C" unsigned ivl_nexus_ptr_pin(ivl_nexus_ptr_t net) { assert(net); return net->pin_; } extern "C" ivl_net_const_t ivl_nexus_ptr_con(ivl_nexus_ptr_t net) { if (net == 0) return 0; if (net->type_ != __NEXUS_PTR_CON) return 0; return net->l.con; } extern "C" ivl_net_logic_t ivl_nexus_ptr_log(ivl_nexus_ptr_t net) { if (net == 0) return 0; if (net->type_ != __NEXUS_PTR_LOG) return 0; return net->l.log; } extern "C" ivl_lpm_t ivl_nexus_ptr_lpm(ivl_nexus_ptr_t net) { if (net == 0) return 0; if (net->type_ != __NEXUS_PTR_LPM) return 0; return net->l.lpm; } extern "C" ivl_signal_t ivl_nexus_ptr_sig(ivl_nexus_ptr_t net) { if (net == 0) return 0; if (net->type_ != __NEXUS_PTR_SIG) return 0; return net->l.sig; } extern "C" ivl_process_type_t ivl_process_type(ivl_process_t net) { return net->type_; } extern "C" ivl_scope_t ivl_process_scope(ivl_process_t net) { return net->scope_; } extern "C" ivl_statement_t ivl_process_stmt(ivl_process_t net) { return net->stmt_; } extern "C" unsigned ivl_process_attr_cnt(ivl_process_t net) { return net->nattr; } extern "C" ivl_attribute_t ivl_process_attr_val(ivl_process_t net, unsigned idx) { assert(idx < net->nattr); return net->attr + idx; } extern "C" const char* ivl_scope_basename(ivl_scope_t net) { assert(net); if (net->parent == 0) return net->name_; return basename(net->parent, net->name_); } extern "C" int ivl_scope_children(ivl_scope_t net, ivl_scope_f func, void*cd) { for (ivl_scope_t cur = net->child_; cur; cur = cur->sibling_) { int rc = func(cur, cd); if (rc != 0) return rc; } return 0; } extern "C" ivl_statement_t ivl_scope_def(ivl_scope_t net) { assert(net); return net->def; } extern "C" unsigned ivl_scope_events(ivl_scope_t net) { assert(net); return net->nevent_; } extern "C" ivl_event_t ivl_scope_event(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nevent_); return net->event_[idx]; } extern "C" unsigned ivl_scope_vars(ivl_scope_t net) { assert(net); return net->nvar_; } extern "C" ivl_variable_t ivl_scope_var(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nvar_); return net->var_[idx]; } extern "C" unsigned ivl_scope_logs(ivl_scope_t net) { assert(net); return net->nlog_; } extern "C" ivl_net_logic_t ivl_scope_log(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nlog_); return net->log_[idx]; } extern "C" unsigned ivl_scope_lpms(ivl_scope_t net) { assert(net); return net->nlpm_; } extern "C" ivl_lpm_t ivl_scope_lpm(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nlpm_); return net->lpm_[idx]; } extern "C" unsigned ivl_scope_mems(ivl_scope_t net) { assert(net); return net->nmem_; } extern "C" ivl_memory_t ivl_scope_mem(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nmem_); return net->mem_[idx]; } extern "C" const char* ivl_scope_name(ivl_scope_t net) { return net->name_; } extern "C" ivl_scope_t ivl_scope_parent(ivl_scope_t net) { assert(net); return net->parent; } extern "C" unsigned ivl_scope_ports(ivl_scope_t net) { assert(net); assert(net->type_ == IVL_SCT_FUNCTION); return net->ports; } extern "C" ivl_signal_t ivl_scope_port(ivl_scope_t net, unsigned idx) { assert(net); assert(net->type_ == IVL_SCT_FUNCTION); assert(idx < net->ports); return net->port[idx]; } extern "C" unsigned ivl_scope_sigs(ivl_scope_t net) { assert(net); return net->nsigs_; } extern "C" ivl_signal_t ivl_scope_sig(ivl_scope_t net, unsigned idx) { assert(net); assert(idx < net->nsigs_); return net->sigs_[idx]; } extern "C" int ivl_scope_time_units(ivl_scope_t net) { assert(net); return net->time_units; } extern "C" ivl_scope_type_t ivl_scope_type(ivl_scope_t net) { assert(net); return net->type_; } extern "C" const char* ivl_scope_tname(ivl_scope_t net) { assert(net); return net->tname_; } extern "C" const char* ivl_signal_attr(ivl_signal_t net, const char*key) { if (net->nattr == 0) return 0; for (unsigned idx = 0 ; idx < net->nattr ; idx += 1) if (strcmp(key, net->attr[idx].key) == 0) return net->attr[idx].type == IVL_ATT_STR ? net->attr[idx].val.str : 0; return 0; } extern "C" unsigned ivl_signal_attr_cnt(ivl_signal_t net) { return net->nattr; } extern "C" ivl_attribute_t ivl_signal_attr_val(ivl_signal_t net, unsigned idx) { assert(idx < net->nattr); return net->attr + idx; } extern "C" const char* ivl_signal_basename(ivl_signal_t net) { return basename(net->scope_, net->name_); } extern "C" const char* ivl_signal_name(ivl_signal_t net) { return net->name_; } extern "C" ivl_nexus_t ivl_signal_pin(ivl_signal_t net, unsigned idx) { assert(net); assert(idx < net->width_); if (net->width_ == 1) { return net->n.pin_; } else { return net->n.pins_[idx]; } } extern "C" unsigned ivl_signal_pins(ivl_signal_t net) { return net->width_; } extern "C" ivl_signal_port_t ivl_signal_port(ivl_signal_t net) { return net->port_; } extern "C" int ivl_signal_local(ivl_signal_t net) { return net->local_; } extern "C" int ivl_signal_signed(ivl_signal_t net) { return net->signed_; } extern "C" int ivl_signal_integer(ivl_signal_t net) { return net->isint_; } extern "C" ivl_signal_type_t ivl_signal_type(ivl_signal_t net) { return net->type_; } extern "C" ivl_statement_type_t ivl_statement_type(ivl_statement_t net) { return net->type_; } extern "C" ivl_scope_t ivl_stmt_block_scope(ivl_statement_t net) { switch (net->type_) { case IVL_ST_BLOCK: case IVL_ST_FORK: return net->u_.block_.scope; default: assert(0); return 0; } } extern "C" unsigned ivl_stmt_block_count(ivl_statement_t net) { switch (net->type_) { case IVL_ST_BLOCK: case IVL_ST_FORK: return net->u_.block_.nstmt_; default: assert(0); return 0; } } extern "C" ivl_statement_t ivl_stmt_block_stmt(ivl_statement_t net, unsigned i) { switch (net->type_) { case IVL_ST_BLOCK: case IVL_ST_FORK: return net->u_.block_.stmt_ + i; default: assert(0); return 0; } } extern "C" ivl_scope_t ivl_stmt_call(ivl_statement_t net) { switch (net->type_) { case IVL_ST_DISABLE: return net->u_.disable_.scope; case IVL_ST_UTASK: return net->u_.utask_.def; default: assert(0); return 0; } } extern "C" unsigned ivl_stmt_case_count(ivl_statement_t net) { switch (net->type_) { case IVL_ST_CASE: case IVL_ST_CASEX: case IVL_ST_CASEZ: return net->u_.case_.ncase; default: assert(0); return 0; } } extern "C" ivl_expr_t ivl_stmt_case_expr(ivl_statement_t net, unsigned idx) { switch (net->type_) { case IVL_ST_CASE: case IVL_ST_CASEX: case IVL_ST_CASEZ: assert(idx < net->u_.case_.ncase); return net->u_.case_.case_ex[idx]; default: assert(0); return 0; } } extern "C" ivl_statement_t ivl_stmt_case_stmt(ivl_statement_t net, unsigned idx) { switch (net->type_) { case IVL_ST_CASE: case IVL_ST_CASEX: case IVL_ST_CASEZ: assert(idx < net->u_.case_.ncase); return net->u_.case_.case_st + idx; default: assert(0); return 0; } } extern "C" ivl_expr_t ivl_stmt_cond_expr(ivl_statement_t net) { switch (net->type_) { case IVL_ST_CONDIT: return net->u_.condit_.cond_; case IVL_ST_CASE: case IVL_ST_CASEX: case IVL_ST_CASEZ: return net->u_.case_.cond; case IVL_ST_REPEAT: case IVL_ST_WHILE: return net->u_.while_.cond_; default: assert(0); return 0; } } extern "C" ivl_statement_t ivl_stmt_cond_false(ivl_statement_t net) { assert(net->type_ == IVL_ST_CONDIT); if (net->u_.condit_.stmt_[1].type_ == IVL_ST_NONE) return 0; else return net->u_.condit_.stmt_ + 1; } extern "C" ivl_statement_t ivl_stmt_cond_true(ivl_statement_t net) { assert(net->type_ == IVL_ST_CONDIT); if (net->u_.condit_.stmt_[0].type_ == IVL_ST_NONE) return 0; else return net->u_.condit_.stmt_ + 0; } extern "C" ivl_expr_t ivl_stmt_delay_expr(ivl_statement_t net) { switch (net->type_) { case IVL_ST_ASSIGN: case IVL_ST_ASSIGN_NB: return net->u_.assign_.delay; case IVL_ST_DELAYX: return net->u_.delayx_.expr; default: assert(0); return 0; } } extern "C" unsigned long ivl_stmt_delay_val(ivl_statement_t net) { assert(net->type_ == IVL_ST_DELAY); return net->u_.delay_.delay_; } extern "C" ivl_event_t ivl_stmt_event(ivl_statement_t net) { switch (net->type_) { case IVL_ST_WAIT: return net->u_.wait_.event_; case IVL_ST_TRIGGER: return net->u_.trig_.event_; default: assert(0); } return 0; } extern "C" ivl_lval_t ivl_stmt_lval(ivl_statement_t net, unsigned idx) { switch (net->type_) { case IVL_ST_ASSIGN: case IVL_ST_ASSIGN_NB: assert(idx < net->u_.assign_.lvals_); return net->u_.assign_.lval_ + idx; case IVL_ST_CASSIGN: case IVL_ST_DEASSIGN: case IVL_ST_FORCE: case IVL_ST_RELEASE: assert(idx < net->u_.cassign_.lvals); return net->u_.cassign_.lval + idx; default: assert(0); } return 0; } extern "C" unsigned ivl_stmt_lvals(ivl_statement_t net) { switch (net->type_) { case IVL_ST_ASSIGN: case IVL_ST_ASSIGN_NB: return net->u_.assign_.lvals_; case IVL_ST_CASSIGN: case IVL_ST_DEASSIGN: case IVL_ST_FORCE: case IVL_ST_RELEASE: return net->u_.cassign_.lvals; default: assert(0); } return 0; } extern "C" unsigned ivl_stmt_lwidth(ivl_statement_t net) { assert((net->type_ == IVL_ST_ASSIGN) || (net->type_ == IVL_ST_ASSIGN_NB)); unsigned sum = 0; for (unsigned idx = 0 ; idx < net->u_.assign_.lvals_ ; idx += 1) { ivl_lval_t cur = net->u_.assign_.lval_ + idx; switch(cur->type_) { case IVL_LVAL_MUX: sum += 1; break; case IVL_LVAL_REG: sum += ivl_lval_pins(cur); break; case IVL_LVAL_MEM: sum += ivl_memory_width(ivl_lval_mem(cur)); break; case IVL_LVAL_VAR: sum += 0; break; default: assert(0); } } return sum; } extern "C" const char* ivl_stmt_name(ivl_statement_t net) { switch (net->type_) { case IVL_ST_STASK: return net->u_.stask_.name_; default: assert(0); } return 0; } extern "C" ivl_nexus_t ivl_stmt_nexus(ivl_statement_t net, unsigned idx) { switch (net->type_) { case IVL_ST_CASSIGN: case IVL_ST_FORCE: assert(idx < net->u_.cassign_.npins); return net->u_.cassign_.pins[idx]; default: assert(0); } return 0; } extern "C" unsigned ivl_stmt_nexus_count(ivl_statement_t net) { switch (net->type_) { case IVL_ST_CASSIGN: case IVL_ST_FORCE: return net->u_.cassign_.npins; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_stmt_parm(ivl_statement_t net, unsigned idx) { switch (net->type_) { case IVL_ST_STASK: assert(idx < net->u_.stask_.nparm_); return net->u_.stask_.parms_[idx]; default: assert(0); } return 0; } extern "C" unsigned ivl_stmt_parm_count(ivl_statement_t net) { switch (net->type_) { case IVL_ST_STASK: return net->u_.stask_.nparm_; default: assert(0); } return 0; } extern "C" ivl_expr_t ivl_stmt_rval(ivl_statement_t net) { switch (net->type_) { case IVL_ST_ASSIGN: case IVL_ST_ASSIGN_NB: return net->u_.assign_.rval_; default: assert(0); } return 0; } extern "C" ivl_statement_t ivl_stmt_sub_stmt(ivl_statement_t net) { switch (net->type_) { case IVL_ST_DELAY: return net->u_.delay_.stmt_; case IVL_ST_DELAYX: return net->u_.delayx_.stmt_; case IVL_ST_FOREVER: return net->u_.forever_.stmt_; case IVL_ST_WAIT: return net->u_.wait_.stmt_; case IVL_ST_REPEAT: case IVL_ST_WHILE: return net->u_.while_.stmt_; default: assert(0); } return 0; } extern "C" const char* ivl_variable_name(ivl_variable_t net) { assert(net); return net->name; } extern "C" ivl_variable_type_t ivl_variable_type(ivl_variable_t net) { assert(net); return net->type; } /* * $Log: t-dll-api.cc,v $ * Revision 1.90 2003/01/26 21:15:59 steve * Rework expression parsing and elaboration to * accommodate real/realtime values and expressions. * * Revision 1.89 2002/12/21 00:55:58 steve * The $time system task returns the integer time * scaled to the local units. Change the internal * implementation of vpiSystemTime the $time functions * to properly account for this. Also add $simtime * to get the simulation time. * * Revision 1.88 2002/10/23 01:47:17 steve * Fix synth2 handling of aset/aclr signals where * flip-flops are split by begin-end blocks. * * Revision 1.87 2002/09/26 03:18:04 steve * Generate vvp code for asynch set/reset of NetFF. * * Revision 1.86 2002/08/12 01:35:00 steve * conditional ident string using autoconfig. * * Revision 1.85 2002/08/07 02:17:14 steve * Dead code. * * Revision 1.84 2002/08/05 04:18:45 steve * Store only the base name of memories. * * Revision 1.83 2002/07/05 21:26:17 steve * Avoid emitting to vvp local net symbols. * * Revision 1.82 2002/06/21 04:59:35 steve * Carry integerness throughout the compilation. * * Revision 1.81 2002/05/27 00:08:45 steve * Support carrying the scope of named begin-end * blocks down to the code generator, and have * the vvp code generator use that to support disable. * * Revision 1.80 2002/05/26 01:39:03 steve * Carry Verilog 2001 attributes with processes, * all the way through to the ivl_target API. * * Divide signal reference counts between rval * and lval references. * * Revision 1.79 2002/05/24 04:36:23 steve * Verilog 2001 attriubtes on nets/wires. */