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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Clifford Wolf <clifford@symbioticeda.com>
* Copyright (C) 2018 David Shah <david@symbioticeda.com>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#ifndef NO_PYTHON
#include "pybindings.h"
#include "arch_pybindings.h"
#include "jsonparse.h"
#include "nextpnr.h"
#include <fstream>
#include <memory>
#include <signal.h>
NEXTPNR_NAMESPACE_BEGIN
// Required to determine concatenated module name (which differs for different
// archs)
#define PASTER(x, y) x##_##y
#define EVALUATOR(x, y) PASTER(x, y)
#define MODULE_NAME EVALUATOR(nextpnrpy, ARCHNAME)
#define PYINIT_MODULE_NAME EVALUATOR(&PyInit_nextpnrpy, ARCHNAME)
#define STRINGIFY(x) #x
#define TOSTRING(x) STRINGIFY(x)
// Architecture-specific bindings should be created in the below function, which
// must be implemented in all architectures
void arch_wrap_python();
bool operator==(const PortRef &a, const PortRef &b) { return (a.cell == b.cell) && (a.port == b.port); }
// Load a JSON file into a design
void parse_json_shim(std::string filename, Context &d)
{
std::ifstream inf(filename);
if (!inf)
throw std::runtime_error("failed to open file " + filename);
parse_json_file(inf, filename, &d);
}
// Create a new Chip and load design from json file
Context *load_design_shim(std::string filename, ArchArgs args)
{
Context *d = new Context(args);
parse_json_shim(filename, *d);
return d;
}
void translate_assertfail(const assertion_failure &e)
{
// Use the Python 'C' API to set up an exception object
PyErr_SetString(PyExc_AssertionError, e.what());
}
BOOST_PYTHON_MODULE(MODULE_NAME)
{
register_exception_translator<assertion_failure>(&translate_assertfail);
using namespace PythonConversion;
class_<GraphicElement>("GraphicElement")
.def_readwrite("type", &GraphicElement::type)
.def_readwrite("x1", &GraphicElement::x1)
.def_readwrite("y1", &GraphicElement::y1)
.def_readwrite("x2", &GraphicElement::x2)
.def_readwrite("y2", &GraphicElement::y2)
.def_readwrite("text", &GraphicElement::text);
enum_<PortType>("PortType")
.value("PORT_IN", PORT_IN)
.value("PORT_OUT", PORT_OUT)
.value("PORT_INOUT", PORT_INOUT)
.export_values();
typedef std::unordered_map<IdString, std::string> AttrMap;
typedef std::unordered_map<IdString, PortInfo> PortMap;
typedef std::unordered_map<IdString, IdString> PinMap;
class_<BaseCtx, BaseCtx *, boost::noncopyable>("BaseCtx", no_init);
auto ci_cls = class_<ContextualWrapper<CellInfo &>>("CellInfo", no_init);
readwrite_wrapper<CellInfo &, decltype(&CellInfo::name), &CellInfo::name, conv_to_str<IdString>,
conv_from_str<IdString>>::def_wrap(ci_cls, "name");
readwrite_wrapper<CellInfo &, decltype(&CellInfo::type), &CellInfo::type, conv_to_str<IdString>,
conv_from_str<IdString>>::def_wrap(ci_cls, "type");
readonly_wrapper<CellInfo &, decltype(&CellInfo::attrs), &CellInfo::attrs, wrap_context<AttrMap &>>::def_wrap(
ci_cls, "attrs");
readonly_wrapper<CellInfo &, decltype(&CellInfo::params), &CellInfo::params, wrap_context<AttrMap &>>::def_wrap(
ci_cls, "params");
readonly_wrapper<CellInfo &, decltype(&CellInfo::ports), &CellInfo::ports, wrap_context<PortMap &>>::def_wrap(
ci_cls, "ports");
readwrite_wrapper<CellInfo &, decltype(&CellInfo::bel), &CellInfo::bel, conv_to_str<BelId>,
conv_from_str<BelId>>::def_wrap(ci_cls, "bel");
readwrite_wrapper<CellInfo &, decltype(&CellInfo::belStrength), &CellInfo::belStrength, pass_through<PlaceStrength>,
pass_through<PlaceStrength>>::def_wrap(ci_cls, "belStrength");
readonly_wrapper<CellInfo &, decltype(&CellInfo::pins), &CellInfo::pins, wrap_context<PinMap &>>::def_wrap(ci_cls,
"pins");
auto pi_cls = class_<ContextualWrapper<PortInfo &>>("PortInfo", no_init);
readwrite_wrapper<PortInfo &, decltype(&PortInfo::name), &PortInfo::name, conv_to_str<IdString>,
conv_from_str<IdString>>::def_wrap(pi_cls, "name");
readonly_wrapper<PortInfo &, decltype(&PortInfo::net), &PortInfo::net, deref_and_wrap<NetInfo>>::def_wrap(pi_cls,
"net");
readwrite_wrapper<PortInfo &, decltype(&PortInfo::type), &PortInfo::type, pass_through<PortType>,
pass_through<PortType>>::def_wrap(pi_cls, "type");
typedef std::vector<PortRef> PortVector;
typedef std::unordered_map<WireId, PipMap> WireMap;
auto ni_cls = class_<ContextualWrapper<NetInfo &>>("NetInfo", no_init);
readwrite_wrapper<NetInfo &, decltype(&NetInfo::name), &NetInfo::name, conv_to_str<IdString>,
conv_from_str<IdString>>::def_wrap(ni_cls, "name");
readwrite_wrapper<NetInfo &, decltype(&NetInfo::driver), &NetInfo::driver, wrap_context<PortRef &>,
unwrap_context<PortRef &>>::def_wrap(ni_cls, "driver");
readonly_wrapper<NetInfo &, decltype(&NetInfo::users), &NetInfo::users, wrap_context<PortVector &>>::def_wrap(
ni_cls, "users");
readonly_wrapper<NetInfo &, decltype(&NetInfo::wires), &NetInfo::wires, wrap_context<WireMap &>>::def_wrap(ni_cls,
"wires");
auto pr_cls = class_<ContextualWrapper<PortRef &>>("PortRef", no_init);
readonly_wrapper<PortRef &, decltype(&PortRef::cell), &PortRef::cell, deref_and_wrap<CellInfo>>::def_wrap(pr_cls,
"cell");
readwrite_wrapper<PortRef &, decltype(&PortRef::port), &PortRef::port, conv_to_str<IdString>,
conv_from_str<IdString>>::def_wrap(pr_cls, "port");
readwrite_wrapper<PortRef &, decltype(&PortRef::budget), &PortRef::budget, pass_through<delay_t>,
pass_through<delay_t>>::def_wrap(pr_cls, "budget");
def("parse_json", parse_json_shim);
def("load_design", load_design_shim, return_value_policy<manage_new_object>());
WRAP_MAP(AttrMap, pass_through<std::string>, "AttrMap");
WRAP_MAP(PortMap, wrap_context<PortInfo &>, "PortMap");
WRAP_MAP(PinMap, conv_to_str<IdString>, "PinMap");
arch_wrap_python();
}
static wchar_t *program;
void init_python(const char *executable, bool first)
{
#ifdef MAIN_EXECUTABLE
program = Py_DecodeLocale(executable, NULL);
if (program == NULL) {
fprintf(stderr, "Fatal error: cannot decode executable filename\n");
exit(1);
}
try {
if (first)
PyImport_AppendInittab(TOSTRING(MODULE_NAME), PYINIT_MODULE_NAME);
Py_SetProgramName(program);
Py_Initialize();
if (first)
PyImport_ImportModule(TOSTRING(MODULE_NAME));
} catch (boost::python::error_already_set const &) {
// Parse and output the exception
std::string perror_str = parse_python_exception();
std::cout << "Error in Python: " << perror_str << std::endl;
}
signal(SIGINT, SIG_DFL);
#endif
}
void deinit_python()
{
#ifdef MAIN_EXECUTABLE
Py_Finalize();
PyMem_RawFree(program);
#endif
}
void execute_python_file(const char *python_file)
{
try {
FILE *fp = fopen(python_file, "r");
if (fp == NULL) {
fprintf(stderr, "Fatal error: file not found %s\n", python_file);
exit(1);
}
PyRun_SimpleFile(fp, python_file);
fclose(fp);
} catch (boost::python::error_already_set const &) {
// Parse and output the exception
std::string perror_str = parse_python_exception();
std::cout << "Error in Python: " << perror_str << std::endl;
}
}
NEXTPNR_NAMESPACE_END
#endif // NO_PYTHON
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