aboutsummaryrefslogtreecommitdiffstats
path: root/examples
diff options
context:
space:
mode:
authorBenedikt Tutzer <e1225461@student.tuwien.ac.at>2018-12-11 08:13:42 +0100
committerBenedikt Tutzer <e1225461@student.tuwien.ac.at>2018-12-11 08:13:42 +0100
commitc151bb31eb9bc905f3a91803a2f4ea882a254b3c (patch)
tree2e4d51f7075917cc6624251ffe3c16a12f89e949 /examples
parent6577a6924665f54c6db8f12cda5b089247516981 (diff)
downloadyosys-c151bb31eb9bc905f3a91803a2f4ea882a254b3c.tar.gz
yosys-c151bb31eb9bc905f3a91803a2f4ea882a254b3c.tar.bz2
yosys-c151bb31eb9bc905f3a91803a2f4ea882a254b3c.zip
Added sample code for python-api
Diffstat (limited to 'examples')
-rw-r--r--examples/python-api/.gitignore1
-rw-r--r--examples/python-api/netlist_graph.py472
-rwxr-xr-xexamples/python-api/run.sh6
3 files changed, 479 insertions, 0 deletions
diff --git a/examples/python-api/.gitignore b/examples/python-api/.gitignore
new file mode 100644
index 000000000..758de1134
--- /dev/null
+++ b/examples/python-api/.gitignore
@@ -0,0 +1 @@
+out/**
diff --git a/examples/python-api/netlist_graph.py b/examples/python-api/netlist_graph.py
new file mode 100644
index 000000000..c8da76e3d
--- /dev/null
+++ b/examples/python-api/netlist_graph.py
@@ -0,0 +1,472 @@
+from libyosys import *
+from scipy.sparse import coo_matrix
+from numpy import savetxt
+
+from enum import Enum
+class NodeType(Enum):
+ GRAPH_CELL = 0
+ GRAPH_PI = 1
+ GRAPH_PO = 2
+ GRAPH_CONST = 3
+ GRAPH_WIRE = 4
+
+class NetlistElement:
+
+ def __init__(self, design, module, name):
+ self.design = design
+ self.module = module
+ self.name = name
+
+class Bit(NetlistElement):
+
+ def __init__(self, bit, design, module, node, port, pos):
+ super().__init__(design, module, IdString("\\__BIT__"))
+ self.bit = bit
+ self.node = node
+ self.port = port
+ self.pos = pos
+
+class Port(NetlistElement):
+
+ def __init__(self, name):
+ super().__init__(None, None, name)
+ self.input = False
+ self.output = False
+ self.bits = []
+
+class Node(NetlistElement):
+
+ def __init__(self, design, module, name, nodeType):
+ super().__init__(design, module, name)
+ self.nodeType = nodeType
+ self.ports = []
+
+ def __lt__(self, other):
+ if isinstance(other, self.__class):
+ if self.type == other.type:
+ return self.name.str() < other.name.str()
+ return self.type < other.type
+ return False
+
+class PyCell(Node):
+
+ def __init__(self, design, module, name, cell):
+ super().__init__(design, module, name, NodeType.GRAPH_CELL)
+ self.cell = cell
+
+class PyWire(Node):
+
+ def __init__(self, design, module, name):
+ super().__init__(design, module, name, NodeType.GRAPH_WIRE)
+
+class NetlistGraph:
+
+ def __init__(self, design, module = None):
+ self.design = design
+ if module != None:
+ self.module = module
+ else:
+ self.module = list(design.modules_.values())[0]
+ self.cells = []
+ self.wires = []
+ self.nodes = []
+ self.node_bits = []
+ self.wire_bits = []
+ self.node_index = {}
+ self.node_bit_index = {}
+ self.wire_bit_index = {}
+
+ self.incoming = None
+ self.outgoing = None
+ self.create()
+
+ def create(self):
+
+ log_header(self.design, "Creating abstract graph representation of "
+ + "module " + self.module.name.str() + "\n")
+ log_push()
+
+ sigmap = SigMap(self.module)
+
+ log(" Creating const node\n")
+ const_node = Node(self.design, self.module, IdString("\\__CONST__"), NodeType.GRAPH_CONST)
+ const_port = Port(IdString("\\__CONST__"))
+ const_port.input = False
+ const_port.output = True
+ cb = SigBit(State.Sx)
+ const_bit = Bit(cb, self.design, self.module, const_node, const_port, 0)
+ const_node.ports.append(const_port)
+ const_port.bits.append(const_bit)
+
+ self.nodes.append(const_node)
+ self.wires.append(const_node)
+ log(" Creating cell nodes\n")
+
+ for cell in self.module.selected_cells():
+ c = PyCell(self.design, self.module, cell.name, cell)
+ for first, second in cell.connections_.items():
+ p = Port(first)
+ p.input = cell.input(p.name)
+ p.output = cell.output(p.name)
+ for bit in sigmap(second).to_sigbit_vector():
+ b = Bit(bit, self.design, self.module, c, p, len(p.bits))
+ p.bits.append(b)
+ c.ports.append(p)
+
+ self.cells.append(c)
+
+ log(" Creating wire nodes\n")
+
+ for wire in self.module.selected_wires():
+ node = PyWire(self.design, self.module, wire.name)
+ p = Port(IdString(""))
+ if wire.port_input:
+ node.nodeType = NodeType.GRAPH_PI
+ p.name = IdString("\\PI")
+ p.input = False
+ p.output = True
+ elif wire.port_output:
+ node.nodeType = NodeType.GRAPH_PO
+ p.name = IdString("\\PO")
+ p.input = True
+ p.output = False
+ for bit in sigmap(wire).to_sigbit_set():
+ b = Bit(bit, self.design, self.module, node, p, len(p.bits))
+ p.bits.append(b)
+ node.ports.append(p)
+ self.wires.append(node)
+
+ self.nodes.extend(self.cells)
+ self.nodes.extend(wire for wire in self.wires if wire.nodeType in [NodeType.GRAPH_PI, NodeType.GRAPH_PO])
+
+ log(" Creating node index for fast lookup\n")
+
+ idx = 0
+
+ for node in self.nodes:
+ self.node_index[node.name] = idx
+ idx += 1
+
+ log(" Creating node bits (= const + cell + PI + PO)\n")
+
+ for node in self.nodes:
+ for port in node.ports:
+ for bit in port.bits:
+ self.node_bits.append(bit)
+
+ log(" Creating wire bits\n")
+
+ for wire in self.wires:
+ for port in wire.ports:
+ for bit in port.bits:
+ self.wire_bits.append(bit)
+
+ log(" Creating node bit index for fast lookup\n")
+
+ idx = 0
+
+ for bit in self.node_bits:
+ self.node_bit_index[bit] = idx
+ idx += 1
+
+ log(" Creating wire bit index for fast lookup\n")
+
+ idx = 0
+
+ for bit in self.wire_bits:
+ self.wire_bit_index[bit] = idx
+ idx += 1
+
+ log(" Mapping port.wire connections to wire bit index\n")
+
+ idx = 0
+
+ wbitmap = {}
+ for wbit in self.wire_bits:
+ wbitmap[wbit.bit] = idx
+ idx += 1
+
+ inputTriplets = []
+ outputTriplets = [(0,0,1)]
+
+ log(" Mapping node bits to wire bits\n")
+
+ idx = 0
+
+ for nbit in self.node_bits:
+ row = idx
+ idx += 1
+ col = 0
+ val = 1
+
+ def check_wire():
+ nonlocal nbit
+ try:
+ wire = nbit.bit.wire
+ return True
+ except:
+ return False
+
+ if check_wire() and not self.design.selected_member(self.module.name, self.module.wire(nbit.bit.wire.name).name):
+ continue
+
+ if check_wire():
+ col = wbitmap[nbit.bit]
+
+ triplet = (row, col, val)
+
+ if col == 0 and row != 0:
+ inputTriplets.append(triplet)
+ continue
+
+ if nbit.node.nodeType == NodeType.GRAPH_CELL:
+ cell = nbit.node
+ if check_wire() and self.design.selected_member(self.module.name, self.module.wire(nbit.bit.wire.name).name):
+ if cell.cell.input(nbit.port.name):
+ inputTriplets.append(triplet)
+ if cell.cell.output(nbit.port.name):
+ outputTriplets.append(triplet)
+ continue
+
+ if nbit.node.nodeType == NodeType.GRAPH_PI and self.design.selected_member(self.module.name, self.module.wire(nbit.bit.wire.name).name):
+ outputTriplets.append(triplet)
+ continue
+
+ if nbit.node.nodeType == NodeType.GRAPH_PO and self.design.selected_member(self.module.name, self.module.wire(nbit.bit.wire.name).name):
+ inputTriplets.append(triplet)
+ continue
+
+ log(" Creating port-to-wire incidence matrices\n")
+
+ sizeX = len(self.node_bits)
+ sizeY= len(self.wire_bits)
+
+ inputRows = [i[0] for i in inputTriplets]
+ inputCols = [i[1] for i in inputTriplets]
+ inputVals = [i[2] for i in inputTriplets]
+ self.incoming = coo_matrix((inputVals, (inputRows, inputCols)), shape=(sizeX, sizeY), dtype='int32')
+
+ outputRows = [i[0] for i in outputTriplets]
+ outputCols = [i[1] for i in outputTriplets]
+ outputVals = [i[2] for i in outputTriplets]
+ self.outgoing = coo_matrix((outputVals, (outputRows, outputCols)), shape=(sizeX, sizeY), dtype='int32')
+
+ def dot(self):
+ log_header(self.design, "Creating 'dot' bipartite module graph representation of module " + self.module.name.str() + "\n")
+ log_push()
+ bitmap = {}
+
+ ss = "digraph g{\n"
+ ss += " rankdir = LR\n"
+ nidx = 0
+ pidx = 0
+ bidx = 0
+ cells_wires = []
+ cells_wires.extend(self.cells)
+ cells_wires.extend(self.wires)
+
+ idx = 0
+
+ for node in cells_wires:
+ for port in node.ports:
+ for bit in port.bits:
+ bitmap[bit] = idx
+ idx += 1
+
+ for node in cells_wires:
+ ss += " subgraph cluster" + str(nidx) + " {\n"
+ ss += " style = \"setlinewidth(2)\";\n"
+ ss += " margin = .2;\n"
+ ss += " n" + str(node.name.index_)
+
+ def s_cell():
+ nonlocal ss
+ ss += "[shape=ellipse,label=\"" + str(nidx) + ":"
+ ss += unescape_id(node.cell.type) + "\""
+ def s_pi():
+ nonlocal ss
+ ss += "[shape = box, label=\"" + str(nidx) + ":"
+ ss += unescape_id(node.name.str()) + "\""
+ def s_po():
+ nonlocal ss
+ ss += "[shape = diamond, label=\"" + str(nidx) + ":"
+ ss += unescape_id(node.name.str()) + "\""
+ def s_const():
+ nonlocal ss
+ ss += "[shape = octagon, label=\"" + str(nidx) + ":CO\""
+ def s_wire():
+ nonlocal ss
+ ss += "[shape = plaintext, label=\"" + str(nidx - len(self.cells)) + ":"
+ ss += unescape_id(node.name.str()) + "\""
+ switch = {
+ NodeType.GRAPH_CELL : s_cell,
+ NodeType.GRAPH_PI : s_pi,
+ NodeType.GRAPH_PO : s_po,
+ NodeType.GRAPH_CONST : s_const,
+ NodeType.GRAPH_WIRE : s_wire
+ }
+ switch[node.nodeType]()
+
+ ss += "];\n"
+
+ pidx = 0
+ for port in node.ports:
+ ss += " port_" + str(node.name.index_) + "_" + str(port.name.index_)
+ ss += "[shape=none,label=<\n"
+ ss += " <table border=\"0\" cellborder=\"1\" cellspacing=\"0\" cellpadding=\"4\" >\n"
+ ss += " <tr><td bgcolor=\"lightgray\" port=\"p" + str(node.name.index_) + "_"
+ ss += str(port.name.index_) + "\"> "
+ ss += unescape_id(port.name.str())
+ ss += "</td></tr>\n"
+
+ bidx = 0;
+ for bit in port.bits:
+
+ ss += " <tr><td bgcolor=\"white\" port=\"b" + str(node.name.index_) + "_" + str(port.name.index_) + "_" + str(bit.pos) + "\"> " + str(bitmap[bit]) + ":" + str(bidx) + "</td></tr>\n"
+
+ bidx += 1
+
+ ss += " </table>\n >];\n"
+
+ if node.nodeType == NodeType.GRAPH_CELL:
+ if node.cell.output(port.name):
+ ss += " n" + str(node.name.index_) + " -> " + "port_" + str(node.name.index_) + "_" + str(port.name.index_) + ":p" + str(node.name.index_) + "_" + str(port.name.index_) + ";\n"
+ else:
+ ss += " port_" + str(node.name.index_) + "_" + str(port.name.index_) + ":p" + str(node.name.index_) + "_" + str(port.name.index_) + " -> " + "n" + str(node.name.index_) + ";\n"
+ if node.nodeType == NodeType.GRAPH_PI or node.nodeType == NodeType.GRAPH_CONST:
+ ss += " n" + str(node.name.index_) + " -> " + "port_" + str(node.name.index_) + "_" + str(port.name.index_) + ":p" + str(node.name.index_) + "_" + str(port.name.index_) + ";\n"
+ if node.nodeType == NodeType.GRAPH_PO:
+ ss += " port_" + str(node.name.index_) + "_" + str(port.name.index_) + ":p" + str(node.name.index_) + "_" + str(port.name.index_) + " -> " + "n" + str(node.name.index_) + ";\n"
+
+ pidx += 1
+ ss += " }\n"
+ nidx += 1
+
+ for i in range(len(self.incoming.nonzero()[0])):
+ b1 = self.node_bits[self.incoming.nonzero()[0][i]]
+ b2 = self.wire_bits[self.incoming.nonzero()[1][i]]
+
+ if b1.node.nodeType == NodeType.GRAPH_PO or b1.node.nodeType == NodeType.GRAPH_CONST:
+ continue
+
+ ss += " "
+ ss += "port_" + str(b2.node.name.index_) + "_" + str(b2.port.name.index_) + ":"
+ ss += "b" + str(b2.node.name.index_) + "_" + str(b2.port.name.index_) + "_" + str(b2.pos)
+ ss += " -> "
+ ss += "port_" + str(b1.node.name.index_) + "_" + str(b1.port.name.index_) + ":"
+ ss += "b" + str(b1.node.name.index_) + "_" + str(b1.port.name.index_) + "_" + str(b1.pos)
+ ss += ";\n"
+
+ for i in range(len(self.outgoing.nonzero()[0])):
+ b1 = self.node_bits[self.outgoing.nonzero()[0][i]]
+ b2 = self.wire_bits[self.outgoing.nonzero()[1][i]]
+
+ if b1.node.nodeType == NodeType.GRAPH_PI:
+ continue
+
+ ss += " "
+ ss += "port_" + str(b1.node.name.index_) + "_" + str(b1.port.name.index_) + ":"
+ ss += "b" + str(b1.node.name.index_) + "_" + str(b1.port.name.index_) + "_" + str(b1.pos)
+ ss += " -> "
+ ss += "port_" + str(b2.node.name.index_) + "_" + str(b2.port.name.index_) + ":"
+ ss += "b" + str(b2.node.name.index_) + "_" + str(b2.port.name.index_) + "_" + str(b2.pos)
+ ss += ";\n"
+
+ ss += "}\n"
+
+ log_pop()
+
+ return ss
+
+ def save_dot(self, filename):
+ savetxt(filename, [self.dot()], fmt="%s")
+
+ def save_incoming(self, filename, delimiter = ","):
+ savetxt(filename, self.incoming.todense(), "%d", delimiter=delimiter)
+
+ def save_outgoing(self, filename, delimiter = ","):
+ savetxt(filename, self.outgoing.todense(), "%d", delimiter=delimiter)
+
+ def save_adjacency(self, filename, delimiter = ","):
+ savetxt(filename, (self.outgoing*self.incoming.transpose()).todense(), "%d", delimiter=delimiter)
+
+p = None
+
+class NetlistGraphPass(Pass):
+
+ def __init__(self):
+ super().__init__("netlist_graph", "Generates the Netlist-Graph of a module")
+
+ import argparse
+ self.parser = argparse.ArgumentParser()
+
+ self.parser.add_argument("-mod", nargs=1, metavar="MOD", help="The Netlist-Graph of the module with the id-string <module> will be generated. If this argument is not given, the first module will be used")
+ self.parser.add_argument("-dot", nargs=1, metavar="FILE", help="Write the Netlist-Graph to FILE in dot format")
+ self.parser.add_argument("-i","-incoming", nargs=1, metavar="FILE", help="Write the incoming incidence matrix to FILE in csv format")
+ self.parser.add_argument("-o","-outgoing", nargs=1, metavar="FILE", help="Write the outgoing incidence matrix to FILE in csv format")
+ self.parser.add_argument("-a","-adjacency", nargs=1, metavar="FILE", help="Write the adjacency matrix to FILE in csv format")
+
+ def py_help(self):
+
+ log("This pass generates the Netlist-Graph of a module\n")
+ log(self.parser.format_help())
+
+ def py_execute(self, args, des):
+
+ args = self.parser.parse_args(args[1:])
+
+ graph = None
+ if args.mod:
+ try:
+ graph = NetlistGraph(des, des.modules_[IdString(args.mod[0])])
+ except KeyError:
+ log("Module \"" + args.mod[0] + "\" not found!\n")
+ exit()
+ else:
+ graph = NetlistGraph(des, list(des.modules_.values())[0])
+
+ if args.dot:
+ graph.save_dot(args.dot[0])
+
+ if args.i:
+ graph.save_incoming(args.i[0])
+
+ if args.o:
+ graph.save_outgoing(args.o[0])
+
+ if args.a:
+ graph.save_adjacency(args.a[0])
+
+ def py_clear_flags(self):
+ log("Clear\n")
+
+if __name__ == "__main__":
+
+ designs = {}
+ graphs = {}
+
+ testdir = "../../tests/simple/"
+
+ import os
+ for testcase in os.listdir(testdir):
+ if not testcase.endswith(".v"):
+ continue
+ designs[testcase] = Design()
+ run_pass("read_verilog " + testdir + testcase, designs[testcase])
+ run_pass("hierarchy -check -auto-top", designs[testcase])
+ run_pass("proc", designs[testcase])
+ run_pass("clean", designs[testcase])
+ run_pass("memory", designs[testcase])
+ run_pass("clean", designs[testcase])
+ run_pass("opt -full", designs[testcase])
+ run_pass("clean", designs[testcase])
+ graphs[testcase] = NetlistGraph(designs[testcase])
+
+ file_prefix = "out/" + testcase
+ graphs[testcase].save_dot(file_prefix + ".dot")
+ graphs[testcase].save_incoming(file_prefix + "_in.csv")
+ graphs[testcase].save_outgoing(file_prefix + "_out.csv")
+ graphs[testcase].save_adjacency(file_prefix + "_adjacency.csv")
+
+else:
+ p = NetlistGraphPass()
diff --git a/examples/python-api/run.sh b/examples/python-api/run.sh
new file mode 100755
index 000000000..5852ea9ac
--- /dev/null
+++ b/examples/python-api/run.sh
@@ -0,0 +1,6 @@
+PYTHONPATH=`pwd`/../../:$PYTHONPATH
+mkdir -p out
+if [ ! -f ../../libyosys.so ]; then
+ make -C ../..
+fi
+python3.5 netlist_graph.py