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#ifndef IVL_pform_H
#define IVL_pform_H
/*
* Copyright (c) 1998-2016 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 "netlist.h"
# include "HName.h"
# include "named.h"
# include "Module.h"
# include "Statement.h"
# include "AStatement.h"
# include "PGate.h"
# include "PExpr.h"
# include "PTask.h"
# include "PUdp.h"
# include "PWire.h"
# include "verinum.h"
# include "discipline.h"
# include <iostream>
# include <string>
# include <list>
# include <memory>
# include <cstdio>
/*
* These classes implement the parsed form (P-form for short) of the
* original Verilog source. the parser generates the pform for the
* convenience of later processing steps.
*/
/*
* Wire objects represent the named wires (of various flavor) declared
* in the source.
*
* Gate objects are the functional modules that are connected together
* by wires.
*
* Wires and gates, connected by joints, represent a netlist. The
* netlist is therefore a representation of the desired circuit.
*/
class PGate;
class PExpr;
class PPackage;
class PSpecPath;
class PClass;
class PPackage;
struct vlltype;
/*
* The min:typ:max expression s selected at parse time using the
* enumeration. When the compiler makes a choice, it also prints a
* warning if min_typ_max_warn > 0.
*/
extern enum MIN_TYP_MAX { MIN, TYP, MAX } min_typ_max_flag;
extern unsigned min_typ_max_warn;
PExpr* pform_select_mtm_expr(PExpr*min, PExpr*typ, PExpr*max);
/*
* This flag is true if the lexor thinks we are in a library source
* file.
*/
extern bool pform_library_flag;
/*
* These type are lexical types -- that is, types that are used as
* lexical values to decorate the parse tree during parsing. They are
* not in any way preserved once parsing is done.
*/
/* This is information about port name information for named port
connections. */
struct parmvalue_t {
list<PExpr*>*by_order;
list<named_pexpr_t>*by_name;
};
struct str_pair_t { ivl_drive_t str0, str1; };
struct net_decl_assign_t {
perm_string name;
PExpr*expr;
struct net_decl_assign_t*next;
};
/* The lgate is gate instantiation information. */
struct lgate {
explicit inline lgate(int =0)
: parms(0), parms_by_name(0), file(NULL), lineno(0)
{ }
string name;
list<PExpr*>*parms;
list<named_pexpr_t>*parms_by_name;
pform_range_t range;
const char* file;
unsigned lineno;
};
extern std::list<pform_range_t>* make_range_from_width(uint64_t wid);
extern std::list<pform_range_t>* copy_range(std::list<pform_range_t>* orig);
/* Use this function to transform the parted form of the attribute
list to the attribute map that is used later. */
extern void pform_bind_attributes(map<perm_string,PExpr*>&attributes,
list<named_pexpr_t>*attr,
bool keep_attr =false);
/* The lexor calls this function to change the default nettype. */
extern void pform_set_default_nettype(NetNet::Type net,
const char*file,
unsigned lineno);
/* Return true if currently processing a program block. This can be
used to reject statements that cannot exist in program blocks. */
extern bool pform_in_program_block(void);
/* Return true if currently processing an interface. This can be
used to reject statements that cannot exist in interfaces. */
extern bool pform_in_interface(void);
/*
* Look for the given wire in the current lexical scope. If the wire
* (including variables of any type) cannot be found in the current
* scope, then return 0.
*/
extern PWire* pform_get_wire_in_scope(perm_string name);
extern PWire* pform_get_make_wire_in_scope(perm_string name, NetNet::Type net_type, NetNet::PortType port_type, ivl_variable_type_t vt_type);
/*
* The parser uses startmodule and endmodule together to build up a
* module as it parses it. The startmodule tells the pform code that a
* module has been noticed in the source file and the following events
* are to apply to the scope of that module. The endmodule causes the
* pform to close up and finish the named module.
*
* The program_block flag indicates that the module is actually a program
* block. The is_interface flag indicates that the module is actually
* an interface. These flags have implications during parse and during
* elaboration/code generation.
*/
extern void pform_startmodule(const struct vlltype&loc, const char*name,
bool program_block, bool is_interface,
LexicalScope::lifetime_t lifetime,
list<named_pexpr_t>*attr);
extern void pform_check_timeunit_prec();
extern void pform_module_set_ports(vector<Module::port_t*>*);
/* These functions are used when we have a complete port definition, either
in an ansi style or non-ansi style declaration. In this case, we have
everything needed to define the port, all in one place. */
extern void pform_module_define_port(const struct vlltype&li,
perm_string name,
NetNet::PortType,
NetNet::Type type,
data_type_t*vtype,
list<named_pexpr_t>*attr,
bool keep_attr =false);
extern void pform_module_define_port(const struct vlltype&li,
list<pform_port_t>*ports,
NetNet::PortType,
NetNet::Type type,
data_type_t*vtype,
list<named_pexpr_t>*attr);
extern Module::port_t* pform_module_port_reference(perm_string name,
const char*file,
unsigned lineno);
extern void pform_endmodule(const char*, bool inside_celldefine,
Module::UCDriveType uc_drive_def);
extern void pform_start_class_declaration(const struct vlltype&loc,
class_type_t*type,
data_type_t*base_type,
std::list<PExpr*>*base_exprs,
LexicalScope::lifetime_t lifetime);
extern void pform_class_property(const struct vlltype&loc,
property_qualifier_t pq,
data_type_t*data_type,
std::list<decl_assignment_t*>*decls);
extern void pform_set_this_class(const struct vlltype&loc, PTaskFunc*net);
extern void pform_set_constructor_return(PFunction*net);
extern void pform_end_class_declaration(const struct vlltype&loc);
extern void pform_make_udp(perm_string name, list<perm_string>*parms,
std::vector<PWire*>*decl, list<string>*table,
Statement*init,
const char*file, unsigned lineno);
extern void pform_make_udp(perm_string name,
bool sync_flag, perm_string out_name,
PExpr*sync_init,
list<perm_string>*parms,
list<string>*table,
const char*file, unsigned lineno);
/*
* Package related functions.
*/
extern void pform_start_package_declaration(const struct vlltype&loc,
const char*type,
LexicalScope::lifetime_t lifetime);
extern void pform_end_package_declaration(const struct vlltype&loc);
extern void pform_package_import(const struct vlltype&loc,
PPackage*pkg, const char*ident);
extern PExpr* pform_package_ident(const struct vlltype&loc,
PPackage*pkg, pform_name_t*ident);
/*
* Interface related functions.
*/
extern void pform_start_modport_item(const struct vlltype&loc, const char*name);
extern void pform_end_modport_item(const struct vlltype&loc);
extern void pform_add_modport_port(const struct vlltype&loc,
NetNet::PortType port_type,
perm_string name, PExpr*expr);
/*
* This creates an identifier aware of names that may have been
* imported from other packages.
*/
extern PEIdent* pform_new_ident(const pform_name_t&name);
/*
* Enter/exit name scopes. The push_scope function pushes the scope
* name string onto the scope hierarchy. The pop pulls it off and
* deletes it. Thus, the string pushed must be allocated.
*/
extern void pform_pop_scope();
/*
* Peek at the current (most recently active) scope.
*/
extern LexicalScope* pform_peek_scope();
extern PClass* pform_push_class_scope(const struct vlltype&loc, perm_string name,
LexicalScope::lifetime_t lifetime);
extern PFunction*pform_push_constructor_scope(const struct vlltype&loc);
extern PPackage* pform_push_package_scope(const struct vlltype&loc, perm_string name,
LexicalScope::lifetime_t lifetime);
extern PTask*pform_push_task_scope(const struct vlltype&loc, char*name,
LexicalScope::lifetime_t lifetime);
extern PFunction*pform_push_function_scope(const struct vlltype&loc, const char*name,
LexicalScope::lifetime_t lifetime);
extern PBlock*pform_push_block_scope(char*name, PBlock::BL_TYPE tt);
extern void pform_put_behavior_in_scope(AProcess*proc);
extern verinum* pform_verinum_with_size(verinum*s, verinum*val,
const char*file, unsigned lineno);
/*
* This function takes the list of names as new genvars to declare in
* the current module or generate scope.
*/
extern void pform_genvars(const struct vlltype&li, list<perm_string>*names);
extern void pform_start_generate_for(const struct vlltype&li,
char*ident1,
PExpr*init,
PExpr*test,
char*ident2,
PExpr*next);
extern void pform_start_generate_if(const struct vlltype&li, PExpr*test);
extern void pform_start_generate_else(const struct vlltype&li);
extern void pform_start_generate_case(const struct vlltype&lp, PExpr*test);
extern void pform_start_generate_nblock(const struct vlltype&lp, char*name);
extern void pform_generate_case_item(const struct vlltype&lp, list<PExpr*>*test);
extern void pform_generate_block_name(char*name);
extern void pform_endgenerate();
/*
* This function returns the lexically containing generate scheme, if
* there is one. The parser may use this to check if we are within a
* generate scheme.
*/
extern PGenerate* pform_parent_generate(void);
extern void pform_set_typedef(perm_string name, data_type_t*data_type,
std::list<pform_range_t>*unp_ranges);
/*
* This function makes a PECallFunction of the named function. Decide
* if this function is in the scope or is imported from a package.
*/
extern PECallFunction* pform_make_call_function(const struct vlltype&loc,
const pform_name_t&name,
const std::list<PExpr*>&parms);
extern PCallTask* pform_make_call_task(const struct vlltype&loc,
const pform_name_t&name,
const std::list<PExpr*>&parms);
extern void pform_make_foreach_declarations(const struct vlltype&loc,
std::list<perm_string>*loop_vars);
extern PForeach* pform_make_foreach(const struct vlltype&loc,
char*ident,
std::list<perm_string>*loop_vars,
Statement*stmt);
/*
* The makewire functions announce to the pform code new wires. These
* go into a module that is currently opened.
*/
extern void pform_makewire(const struct vlltype&li, perm_string name,
NetNet::Type type,
NetNet::PortType pt,
ivl_variable_type_t,
list<named_pexpr_t>*attr);
/* This form handles simple declarations */
extern void pform_makewire(const struct vlltype&li,
list<pform_range_t>*range,
bool signed_flag,
list<perm_string>*names,
NetNet::Type type,
NetNet::PortType,
ivl_variable_type_t,
list<named_pexpr_t>*attr,
PWSRType rt = SR_NET);
/* This form handles assignment declarations. */
extern void pform_makewire(const struct vlltype&li,
list<PExpr*>*delay,
str_pair_t str,
net_decl_assign_t*assign_list,
NetNet::Type type,
data_type_t*data_type);
extern void pform_makewire(const struct vlltype&li,
std::list<PExpr*>*delay,
str_pair_t str,
std::list<decl_assignment_t*>*assign_list,
NetNet::Type type,
data_type_t*data_type);
/* This form handles nets declared as structures. (See pform_struct_type.cc) */
extern void pform_makewire(const struct vlltype&li,
struct_type_t*struct_type,
NetNet::PortType,
list<perm_string>*names,
list<named_pexpr_t>*attr);
extern void pform_make_var_init(const struct vlltype&li,
perm_string name, PExpr*expr);
/* This function is used when we have an incomplete port definition in
a non-ansi style declaration. Look up the names of the wires, and set
the port type, i.e. input, output or inout, and, if specified, the
range and signedness. If the wire does not exist, create it. */
extern void pform_set_port_type(const struct vlltype&li,
list<pform_port_t>*ports,
NetNet::PortType,
data_type_t*dt,
list<named_pexpr_t>*attr);
extern void pform_set_reg_idx(perm_string name,
std::list<pform_range_t>*indices);
extern void pform_set_data_type(const struct vlltype&li, data_type_t*, list<perm_string>*names, NetNet::Type net_type, list<named_pexpr_t>*attr);
extern void pform_set_struct_type(struct_type_t*struct_type, std::list<perm_string>*names, NetNet::Type net_type, std::list<named_pexpr_t>*attr);
extern void pform_set_string_type(const string_type_t*string_type, std::list<perm_string>*names, NetNet::Type net_type, std::list<named_pexpr_t>*attr);
extern void pform_set_class_type(class_type_t*class_type, std::list<perm_string>*names, NetNet::Type net_type, std::list<named_pexpr_t>*addr);
/* pform_set_attrib and pform_set_type_attrib exist to support the
$attribute syntax, which can only set string values to
attributes. The functions keep the value strings that are
passed in. */
extern void pform_set_attrib(perm_string name, perm_string key,
char*value);
extern void pform_set_type_attrib(perm_string name, const string&key,
char*value);
extern LexicalScope::range_t* pform_parameter_value_range(bool exclude_flag,
bool low_open, PExpr*low_expr,
bool hig_open, PExpr*hig_expr);
extern void pform_set_parameter(const struct vlltype&loc,
perm_string name,
ivl_variable_type_t type,
bool signed_flag,
list<pform_range_t>*range,
PExpr*expr, LexicalScope::range_t*value_range);
extern void pform_set_localparam(const struct vlltype&loc,
perm_string name,
ivl_variable_type_t type,
bool signed_flag,
list<pform_range_t>*range,
PExpr*expr);
extern void pform_set_specparam(const struct vlltype&loc,
perm_string name,
list<pform_range_t>*range,
PExpr*expr);
extern void pform_set_defparam(const pform_name_t&name, PExpr*expr);
extern void pform_set_param_from_type(const struct vlltype&loc,
const data_type_t *data_type,
const char *name,
list<pform_range_t> *&param_range,
bool &param_signed,
ivl_variable_type_t &param_type);
/*
* Functions related to specify blocks.
*/
extern PSpecPath*pform_make_specify_path(const struct vlltype&li,
list<perm_string>*src, char pol,
bool full_flag, list<perm_string>*dst);
extern PSpecPath*pform_make_specify_edge_path(const struct vlltype&li,
int edge_flag, /*posedge==true */
list<perm_string>*src, char pol,
bool full_flag, list<perm_string>*dst,
PExpr*data_source_expression);
extern PSpecPath*pform_assign_path_delay(PSpecPath*obj, list<PExpr*>*delays);
extern void pform_module_specify_path(PSpecPath*obj);
/*
* pform_make_behavior creates processes that are declared with always
* or initial items.
*/
extern PProcess* pform_make_behavior(ivl_process_type_t, Statement*,
list<named_pexpr_t>*attr);
extern void pform_mc_translate_on(bool flag);
extern std::vector<PWire*>* pform_make_udp_input_ports(list<perm_string>*);
extern void pform_make_events(list<perm_string>*names,
const char*file, unsigned lineno);
/*
* Make real datum objects.
*/
extern void pform_make_reals(list<perm_string>*names,
const char*file, unsigned lineno);
/*
* The makegate function creates a new gate (which need not have a
* name) and connects it to the specified wires.
*/
extern void pform_makegates(const struct vlltype&loc,
PGBuiltin::Type type,
struct str_pair_t str,
list<PExpr*>*delay,
svector<lgate>*gates,
list<named_pexpr_t>*attr);
extern void pform_make_modgates(const struct vlltype&loc,
perm_string type,
struct parmvalue_t*overrides,
svector<lgate>*gates);
/* Make a continuous assignment node, with optional bit- or part- select. */
extern void pform_make_pgassign_list(list<PExpr*>*alist,
list<PExpr*>*del,
struct str_pair_t str,
const char* fn, unsigned lineno);
/* Given a port type and a list of names, make a list of wires that
can be used as task port information. */
extern std::vector<pform_tf_port_t>*pform_make_task_ports(const struct vlltype&loc,
NetNet::PortType pt,
ivl_variable_type_t vtype,
bool signed_flag,
list<pform_range_t>*range,
list<perm_string>*names,
bool isint = false);
extern std::vector<pform_tf_port_t>*pform_make_task_ports(const struct vlltype&loc,
NetNet::PortType pt,
data_type_t*vtype,
list<perm_string>*names);
/*
* The parser uses this function to convert a unary
* increment/decrement expression to the equivalent compressed
* assignment statement.
*/
extern PAssign* pform_compressed_assign_from_inc_dec(const struct vlltype&loc,
PExpr*exp);
/*
* These are functions that the outside-the-parser code uses the do
* interesting things to the Verilog. The parse function reads and
* parses the source file and places all the modules it finds into the
* mod list. The dump function dumps a module to the output stream.
*/
extern void pform_dump(ostream&out, Module*mod);
/* ** pform_discipline.cc
* Functions for handling the parse of natures and disciplines. These
* functions are in pform_disciplines.cc
*/
extern void pform_start_nature(const char*name);
extern void pform_end_nature(const struct vlltype&loc);
extern void pform_nature_access(const struct vlltype&loc, const char*name);
extern void pform_start_discipline(const char*name);
extern void pform_end_discipline(const struct vlltype&loc);
extern void pform_discipline_domain(const struct vlltype&loc, ivl_dis_domain_t use_domain);
extern void pform_discipline_potential(const struct vlltype&loc, const char*name);
extern void pform_discipline_flow(const struct vlltype&loc, const char*name);
extern void pform_attach_discipline(const struct vlltype&loc,
ivl_discipline_t discipline, list<perm_string>*names);
extern void pform_dump(ostream&out, const ivl_nature_s*);
extern void pform_dump(ostream&out, const ivl_discipline_s*);
/* ** pform_analog.cc
*/
extern void pform_make_analog_behavior(const struct vlltype&loc,
ivl_process_type_t type, Statement*st);
extern AContrib*pform_contribution_statement(const struct vlltype&loc,
PExpr*lval, PExpr*rval);
extern PExpr* pform_make_branch_probe_expression(const struct vlltype&loc,
char*name, char*n1, char*n2);
extern PExpr* pform_make_branch_probe_expression(const struct vlltype&loc,
char*name, char*branch);
/*
* Parse configuration file with format <key>=<value>, where key
* is the hierarchical name of a valid parameter name and value
* is the value user wants to assign to. The value should be constant.
*/
extern void parm_to_defparam_list(const string&param);
/*
* Tasks to set the timeunit or timeprecision for SystemVerilog.
*/
extern bool get_time_unit(const char*cp, int &unit);
extern int pform_get_timeunit();
extern void pform_set_timeunit(const char*txt, bool in_module, bool only_check);
extern void pform_set_timeprecision(const char*txt, bool in_module,
bool only_check);
#endif /* IVL_pform_H */