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Move json parser from frontend/json/ to json/

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Signed-off-by: Clifford Wolf <clifford@clifford.at>
This commit is contained in:
Clifford Wolf
2018-06-23 16:20:31 +02:00
parent 80fbf7e4eb
commit fe26ce4471
3 changed files with 2 additions and 2 deletions
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778
json/jsonparse.cc Normal file
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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 SymbioticEDA
*
* jsonparse.cc -- liberally copied from the yosys file of the same name by
*
* Copyright (C) 2018 Clifford Wolf <clifford@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.
*
*/
#include "jsonparse.h"
#include <assert.h>
#include <fstream>
#include <iostream>
#include <log.h>
#include <map>
#include <string>
#include "nextpnr.h"
NEXTPNR_NAMESPACE_BEGIN
extern bool check_all_nets_driven(Context *ctx);
namespace JsonParser {
const bool json_debug = false;
typedef std::string string;
template <typename T> int GetSize(const T &obj) { return obj.size(); }
struct JsonNode
{
char type; // S=String, N=Number, A=Array, D=Dict
string data_string;
int data_number;
std::vector<JsonNode *> data_array;
std::map<string, JsonNode *> data_dict;
std::vector<string> data_dict_keys;
JsonNode(std::istream &f)
{
type = 0;
data_number = 0;
while (1) {
int ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON file.\n");
if (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n')
continue;
if (ch == '\"') {
type = 'S';
while (1) {
ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON string.\n");
if (ch == '\"')
break;
if (ch == '\\') {
int ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON string.\n");
}
data_string += ch;
}
break;
}
if ('0' <= ch && ch <= '9') {
type = 'N';
data_number = ch - '0';
data_string += ch;
while (1) {
ch = f.get();
if (ch == EOF)
break;
if (ch == '.')
goto parse_real;
if (ch < '0' || '9' < ch) {
f.unget();
break;
}
data_number = data_number * 10 + (ch - '0');
data_string += ch;
}
data_string = "";
break;
parse_real:
type = 'S';
data_number = 0;
data_string += ch;
while (1) {
ch = f.get();
if (ch == EOF)
break;
if (ch < '0' || '9' < ch) {
f.unget();
break;
}
data_string += ch;
}
break;
}
if (ch == '[') {
type = 'A';
while (1) {
ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON file.\n");
if (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n' || ch == ',')
continue;
if (ch == ']')
break;
f.unget();
data_array.push_back(new JsonNode(f));
}
break;
}
if (ch == '{') {
type = 'D';
while (1) {
ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON file.\n");
if (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n' || ch == ',')
continue;
if (ch == '}')
break;
f.unget();
JsonNode key(f);
while (1) {
ch = f.get();
if (ch == EOF)
log_error("Unexpected EOF in JSON file.\n");
if (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n' || ch == ':')
continue;
f.unget();
break;
}
JsonNode *value = new JsonNode(f);
if (key.type != 'S')
log_error("Unexpected non-string key in JSON dict.\n");
data_dict[key.data_string] = value;
data_dict_keys.push_back(key.data_string);
}
break;
}
log_error("Unexpected character in JSON file: '%c'\n", ch);
}
}
~JsonNode()
{
for (auto it : data_array)
delete it;
for (auto &it : data_dict)
delete it.second;
}
};
NetInfo *ground_net(Context *ctx, NetInfo *net)
{
CellInfo *cell = new CellInfo;
PortInfo port_info;
PortRef port_ref;
cell->name = ctx->id(net->name.str(ctx) + ".GND");
cell->type = ctx->id("GND");
port_info.name = ctx->id(cell->name.str(ctx) + "[]");
port_info.net = net;
port_info.type = PORT_OUT;
port_ref.cell = cell;
port_ref.port = port_info.name;
net->driver = port_ref;
cell->ports[port_info.name] = port_info;
return net;
}
NetInfo *vcc_net(Context *ctx, NetInfo *net)
{
CellInfo *cell = new CellInfo;
PortInfo port_info;
PortRef port_ref;
cell->name = ctx->id(net->name.str(ctx) + ".VCC");
cell->type = ctx->id("VCC");
port_info.name = ctx->id(cell->name.str(ctx) + "[]");
port_info.net = net;
port_info.type = PORT_OUT;
port_ref.cell = cell;
port_ref.port = port_info.name;
net->driver = port_ref;
cell->ports[port_info.name] = port_info;
return net;
}
NetInfo *floating_net(Context *ctx, NetInfo *net)
{
PortInfo port_info;
PortRef port_ref;
port_info.name = ctx->id(net->name.str(ctx) + ".floating");
port_info.net = net;
port_info.type = PORT_OUT;
port_ref.cell = NULL;
port_ref.port = port_info.name;
net->driver = port_ref;
return net;
}
//
// is_blackbox
//
// Checks the JsonNode for an attributes dictionary, with a "blackbox" entry.
// An item is deemed to be a blackbox if this entry exists and if its
// value is not zero. If the item is a black box, this routine will return
// true, false otherwise
bool is_blackbox(JsonNode *node)
{
JsonNode *attr_node, *bbox_node;
if (node->data_dict.count("attributes") == 0)
return false;
attr_node = node->data_dict.at("attributes");
if (attr_node == NULL)
return false;
if (attr_node->type != 'D')
return false;
if (GetSize(attr_node->data_dict) == 0)
return false;
if (attr_node->data_dict.count("blackbox") == 0)
return false;
bbox_node = attr_node->data_dict.at("blackbox");
if (bbox_node == NULL)
return false;
if (bbox_node->type != 'N')
log_error("JSON module blackbox is not a number\n");
if (bbox_node->data_number == 0)
return false;
return true;
}
void json_import_cell_params(Context *ctx, string &modname, CellInfo *cell, JsonNode *param_node,
std::unordered_map<IdString, std::string> *dest, int param_id)
{
//
JsonNode *param;
IdString pId;
//
param = param_node->data_dict.at(param_node->data_dict_keys[param_id]);
pId = ctx->id(param_node->data_dict_keys[param_id]);
if (param->type == 'N') {
(*dest)[pId] = std::to_string(param->data_number);
} else if (param->type == 'S')
(*dest)[pId] = param->data_string;
else
log_error("JSON parameter type of \"%s\' of cell \'%s\' not supported\n", pId.c_str(ctx),
cell->name.c_str(ctx));
if (json_debug)
log_info(" Added parameter \'%s\'=%s to cell \'%s\' "
"of module \'%s\'\n",
pId.c_str(ctx), cell->params[pId].c_str(), cell->name.c_str(ctx), modname.c_str());
}
static int const_net_idx = 0;
template <typename F>
void json_import_ports(Context *ctx, const string &modname, const std::vector<IdString> &netnames,
const string &obj_name, const string &port_name, JsonNode *dir_node, JsonNode *wire_group_node,
F visitor)
{
// Examine a port of a cell or the design. For every bit of the port,
// the connected net will be processed and `visitor` will be called
// with (PortType dir, std::string name, NetInfo *net)
assert(dir_node);
if (json_debug)
log_info(" Examining port %s, node %s\n", port_name.c_str(), obj_name.c_str());
if (!wire_group_node)
log_error("JSON no connection match "
"for port_direction \'%s\' of node \'%s\' "
"in module \'%s\'\n",
port_name.c_str(), obj_name.c_str(), modname.c_str());
assert(wire_group_node);
assert(dir_node->type == 'S');
assert(wire_group_node->type == 'A');
PortInfo port_info;
port_info.name = ctx->id(port_name);
if (dir_node->data_string.compare("input") == 0)
port_info.type = PORT_IN;
else if (dir_node->data_string.compare("output") == 0)
port_info.type = PORT_OUT;
else if (dir_node->data_string.compare("inout") == 0)
port_info.type = PORT_INOUT;
else
log_error("JSON unknown port direction \'%s\' in node \'%s\' "
"of module \'%s\'\n",
dir_node->data_string.c_str(), obj_name.c_str(), modname.c_str());
//
// Find an update, or create a net to connect
// to this port.
//
NetInfo *this_net = nullptr;
bool is_bus;
//
// If this port references a bus, then there will be multiple nets
// connected to it, all specified as part of an array.
//
is_bus = (wire_group_node->data_array.size() > 1);
// Now loop through all of the connections to this port.
if (wire_group_node->data_array.size() == 0) {
//
// There is/are no connections to this port.
//
// Create the port, but leave the net NULL
visitor(port_info.type, port_info.name.str(ctx), nullptr);
if (json_debug)
log_info(" Port \'%s\' has no connection in \'%s\'\n", port_info.name.c_str(ctx), obj_name.c_str());
} else
for (int index = 0; index < int(wire_group_node->data_array.size()); index++) {
//
JsonNode *wire_node;
PortInfo this_port;
IdString net_id;
//
wire_node = wire_group_node->data_array[index];
//
// Pick a name for this port
if (is_bus)
this_port.name = ctx->id(port_info.name.str(ctx) + "[" + std::to_string(index) + "]");
else
this_port.name = port_info.name;
this_port.type = port_info.type;
if (wire_node->type == 'N') {
int net_num;
// A simple net, specified by a number
net_num = wire_node->data_number;
if (net_num < int(netnames.size()))
net_id = netnames.at(net_num);
else
net_id = ctx->id(std::to_string(net_num));
if (ctx->nets.count(net_id) == 0) {
// The net doesn't exist in the design (yet)
// Create in now
if (json_debug)
log_info(" Generating a new net, \'%d\'\n", net_num);
this_net = new NetInfo;
this_net->name = net_id;
this_net->driver.cell = NULL;
this_net->driver.port = IdString();
ctx->nets[net_id] = this_net;
} else {
//
// The net already exists within the design.
// We'll connect to it
//
this_net = ctx->nets[net_id];
if (json_debug)
log_info(" Reusing net \'%s\', id \'%s\', "
"with driver \'%s\'\n",
this_net->name.c_str(ctx), net_id.c_str(ctx),
(this_net->driver.cell != NULL) ? this_net->driver.port.c_str(ctx) : "NULL");
}
} else if (wire_node->type == 'S') {
// Strings are only used to drive wires for the fixed
// values "0", "1", and "x". Handle those constant
// values here.
//
// Constants always get their own new net
this_net = new NetInfo;
this_net->name = ctx->id("$const_" + std::to_string(const_net_idx++));
if (wire_node->data_string.compare(string("0")) == 0) {
if (json_debug)
log_info(" Generating a constant "
"zero net\n");
this_net = ground_net(ctx, this_net);
} else if (wire_node->data_string.compare(string("1")) == 0) {
if (json_debug)
log_info(" Generating a constant "
"one net\n");
this_net = vcc_net(ctx, this_net);
} else if (wire_node->data_string.compare(string("x")) == 0) {
this_net = floating_net(ctx, this_net);
log_warning(" Floating wire node value, "
"\'%s\' of port \'%s\' "
"in cell \'%s\' of module \'%s\'\n",
wire_node->data_string.c_str(), port_name.c_str(), obj_name.c_str(), modname.c_str());
} else
log_error(" Unknown fixed type wire node "
"value, \'%s\'\n",
wire_node->data_string.c_str());
}
if (json_debug)
log_info(" Inserting port \'%s\' into cell \'%s\'\n", this_port.name.c_str(ctx), obj_name.c_str());
visitor(this_port.type, this_port.name.str(ctx), this_net);
if (ctx->nets.count(this_net->name) == 0)
ctx->nets[this_net->name] = this_net;
}
}
void json_import_cell(Context *ctx, string modname, const std::vector<IdString> &netnames, JsonNode *cell_node,
string cell_name)
{
JsonNode *cell_type, *param_node, *attr_node;
cell_type = cell_node->data_dict.at("type");
if (cell_type == NULL)
return;
CellInfo *cell = new CellInfo;
cell->name = ctx->id(cell_name);
assert(cell_type->type == 'S');
cell->type = ctx->id(cell_type->data_string);
// No BEL assignment here/yet
if (json_debug)
log_info(" Processing %s $ %s\n", modname.c_str(), cell->name.c_str(ctx));
param_node = cell_node->data_dict.at("parameters");
if (param_node->type != 'D')
log_error("JSON parameter list of \'%s\' is not a data dictionary\n", cell->name.c_str(ctx));
//
// Loop through all parameters, adding them into the
// design to annotate the cell
//
for (int paramid = 0; paramid < GetSize(param_node->data_dict_keys); paramid++) {
json_import_cell_params(ctx, modname, cell, param_node, &cell->params, paramid);
}
attr_node = cell_node->data_dict.at("attributes");
if (attr_node->type != 'D')
log_error("JSON attribute list of \'%s\' is not a data dictionary\n", cell->name.c_str(ctx));
//
// Loop through all attributes, adding them into the
// design to annotate the cell
//
for (int attrid = 0; attrid < GetSize(attr_node->data_dict_keys); attrid++) {
json_import_cell_params(ctx, modname, cell, attr_node, &cell->attrs, attrid);
}
//
// Now connect the ports of this module. The ports are defined by
// both the port directions node as well as the connections node.
// Both should contain dictionaries having the same keys.
//
JsonNode *pdir_node = NULL;
if (cell_node->data_dict.count("port_directions") > 0) {
pdir_node = cell_node->data_dict.at("port_directions");
if (pdir_node->type != 'D')
log_error("JSON port_directions node of \'%s\' "
"in module \'%s\' is not a "
"dictionary\n",
cell->name.c_str(ctx), modname.c_str());
} else if (cell_node->data_dict.count("ports") > 0) {
pdir_node = cell_node->data_dict.at("ports");
if (pdir_node->type != 'D')
log_error("JSON ports node of \'%s\' "
"in module \'%s\' is not a "
"dictionary\n",
cell->name.c_str(ctx), modname.c_str());
}
JsonNode *connections = cell_node->data_dict.at("connections");
if (connections->type != 'D')
log_error("JSON connections node of \'%s\' "
"in module \'%s\' is not a "
"dictionary\n",
cell->name.c_str(ctx), modname.c_str());
if (GetSize(pdir_node->data_dict_keys) != GetSize(connections->data_dict_keys))
log_error("JSON number of connections doesnt "
"match number of ports in node \'%s\' "
"of module \'%s\'\n",
cell->name.c_str(ctx), modname.c_str());
//
// Loop through all of the ports of this logic element
//
for (int portid = 0; portid < GetSize(pdir_node->data_dict_keys); portid++) {
//
string port_name;
JsonNode *dir_node, *wire_group_node;
//
port_name = pdir_node->data_dict_keys[portid];
dir_node = pdir_node->data_dict.at(port_name);
wire_group_node = connections->data_dict.at(port_name);
json_import_ports(ctx, modname, netnames, cell->name.str(ctx), port_name, dir_node, wire_group_node,
[cell, ctx](PortType type, const std::string &name, NetInfo *net) {
cell->ports[ctx->id(name)] = PortInfo{ctx->id(name), net, type};
PortRef pr;
pr.cell = cell;
pr.port = ctx->id(name);
if (net != nullptr) {
if (type == PORT_IN || type == PORT_INOUT) {
net->users.push_back(pr);
} else if (type == PORT_OUT) {
assert(net->driver.cell == nullptr);
net->driver = pr;
}
}
});
}
ctx->cells[cell->name] = cell;
// check_all_nets_driven(ctx);
}
static void insert_iobuf(Context *ctx, NetInfo *net, PortType type, const string &name)
{
// Instantiate a architecture-independent IO buffer connected to a given
// net, of a given type, and named after the IO port.
//
// During packing, this generic IO buffer will be converted to an
// architecure primitive.
//
CellInfo *iobuf = new CellInfo();
iobuf->name = ctx->id(name);
std::copy(net->attrs.begin(), net->attrs.end(), std::inserter(iobuf->attrs, iobuf->attrs.begin()));
if (type == PORT_IN) {
if (ctx->verbose)
log_info("processing input port %s\n", name.c_str());
iobuf->type = ctx->id("$nextpnr_ibuf");
iobuf->ports[ctx->id("O")] = PortInfo{ctx->id("O"), net, PORT_OUT};
// Special case: input, etc, directly drives inout
if (net->driver.cell != nullptr) {
assert(net->driver.cell->type == ctx->id("$nextpnr_iobuf"));
net = net->driver.cell->ports.at(ctx->id("I")).net;
}
assert(net->driver.cell == nullptr);
net->driver.port = ctx->id("O");
net->driver.cell = iobuf;
} else if (type == PORT_OUT) {
if (ctx->verbose)
log_info("processing output port %s\n", name.c_str());
iobuf->type = ctx->id("$nextpnr_obuf");
iobuf->ports[ctx->id("I")] = PortInfo{ctx->id("I"), net, PORT_IN};
PortRef ref;
ref.cell = iobuf;
ref.port = ctx->id("I");
net->users.push_back(ref);
} else if (type == PORT_INOUT) {
if (ctx->verbose)
log_info("processing inout port %s\n", name.c_str());
iobuf->type = ctx->id("$nextpnr_iobuf");
iobuf->ports[ctx->id("I")] = PortInfo{ctx->id("I"), nullptr, PORT_IN};
// Split the input and output nets for bidir ports
NetInfo *net2 = new NetInfo();
net2->name = ctx->id("$" + net->name.str(ctx) + "$iobuf_i");
net2->driver = net->driver;
if (net->driver.cell != nullptr) {
net2->driver.cell->ports[net2->driver.port].net = net2;
net->driver.cell = nullptr;
}
ctx->nets[net2->name] = net2;
iobuf->ports[ctx->id("I")].net = net2;
PortRef ref;
ref.cell = iobuf;
ref.port = ctx->id("I");
net2->users.push_back(ref);
iobuf->ports[ctx->id("O")] = PortInfo{ctx->id("O"), net, PORT_OUT};
assert(net->driver.cell == nullptr);
net->driver.port = ctx->id("O");
net->driver.cell = iobuf;
} else {
assert(false);
}
ctx->cells[iobuf->name] = iobuf;
}
void json_import_toplevel_port(Context *ctx, const string &modname, const std::vector<IdString> &netnames,
const string &portname, JsonNode *node)
{
JsonNode *dir_node = node->data_dict.at("direction");
JsonNode *nets_node = node->data_dict.at("bits");
json_import_ports(
ctx, modname, netnames, "Top Level IO", portname, dir_node, nets_node,
[ctx](PortType type, const std::string &name, NetInfo *net) { insert_iobuf(ctx, net, type, name); });
}
void json_import(Context *ctx, string modname, JsonNode *node)
{
if (is_blackbox(node))
return;
log_info("Importing module %s\n", modname.c_str());
// Import netnames
std::vector<IdString> netnames;
if (node->data_dict.count("netnames")) {
JsonNode *cell_parent = node->data_dict.at("netnames");
for (int nnid = 0; nnid < GetSize(cell_parent->data_dict_keys); nnid++) {
JsonNode *here;
here = cell_parent->data_dict.at(cell_parent->data_dict_keys[nnid]);
std::string basename = cell_parent->data_dict_keys[nnid];
if (here->data_dict.count("bits")) {
JsonNode *bits = here->data_dict.at("bits");
assert(bits->type == 'A');
size_t num_bits = bits->data_array.size();
for (size_t i = 0; i < num_bits; i++) {
int netid = bits->data_array.at(i)->data_number;
if (netid >= int(netnames.size()))
netnames.resize(netid + 1);
netnames.at(netid) = ctx->id(
basename + (num_bits == 1 ? "" : std::string("[") + std::to_string(i) + std::string("]")));
}
}
}
}
if (node->data_dict.count("cells")) {
JsonNode *cell_parent = node->data_dict.at("cells");
//
//
// Loop through all of the logic elements in a flattened design
//
//
for (int cellid = 0; cellid < GetSize(cell_parent->data_dict_keys); cellid++) {
JsonNode *here = cell_parent->data_dict.at(cell_parent->data_dict_keys[cellid]);
json_import_cell(ctx, modname, netnames, here, cell_parent->data_dict_keys[cellid]);
}
}
if (node->data_dict.count("ports")) {
JsonNode *ports_parent = node->data_dict.at("ports");
// N.B. ports must be imported after cells for tristate behaviour
// to be correct
// Loop through all ports
for (int portid = 0; portid < GetSize(ports_parent->data_dict_keys); portid++) {
JsonNode *here;
here = ports_parent->data_dict.at(ports_parent->data_dict_keys[portid]);
json_import_toplevel_port(ctx, modname, netnames, ports_parent->data_dict_keys[portid], here);
}
}
check_all_nets_driven(ctx);
}
}; // End Namespace JsonParser
bool parse_json_file(std::istream &f, std::string &filename, Context *ctx)
{
try {
using namespace JsonParser;
JsonNode root(f);
if (root.type != 'D')
log_error("JSON root node is not a dictionary.\n");
if (root.data_dict.count("modules") != 0) {
JsonNode *modules = root.data_dict.at("modules");
if (modules->type != 'D')
log_error("JSON modules node is not a dictionary.\n");
for (auto &it : modules->data_dict)
json_import(ctx, it.first, it.second);
}
log_info("Checksum: 0x%08x\n", ctx->checksum());
log_break();
return true;
} catch (log_execution_error_exception) {
return false;
}
}
NEXTPNR_NAMESPACE_END

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json/jsonparse.h Normal file
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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 SymbioticEDA
*
* 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 JSON_PARSER
#define JSON_PARSER
#include <istream>
#include <string>
#include "nextpnr.h"
NEXTPNR_NAMESPACE_BEGIN
extern bool parse_json_file(std::istream &, std::string &, Context *);
NEXTPNR_NAMESPACE_END
#endif