"""
=======================
Five-point Winograd DFT
=======================

First, define the SFG/block diagram
"""

from math import cos, pi, sin

import matplotlib.pyplot as plt
import networkx as nx

from b_asic.architecture import Architecture, Memory, ProcessingElement
from b_asic.core_operations import AddSub, ConstantMultiplication
from b_asic.fft_operations import R2Butterfly
from b_asic.schedule import Schedule
from b_asic.sfg import SFG
from b_asic.special_operations import Input, Output

u = -2 * pi / 5
c50 = (cos(u) + cos(2 * u)) / 2 - 1
c51 = (cos(u) - cos(2 * u)) / 2
c52 = 1j * (sin(u) + sin(2 * u)) / 2
c53 = 1j * (sin(2 * u))
c54 = 1j * (sin(u) - sin(2 * u))


in0 = Input("x0")
in1 = Input("x1")
in2 = Input("x2")
in3 = Input("x3")
in4 = Input("x4")
bf0 = R2Butterfly(in1, in3)
bf1 = R2Butterfly(in4, in2)
bf2 = R2Butterfly(bf0.output(0), bf1.output(0))
a0 = AddSub(True, bf0.output(1), bf1.output(0))
a1 = AddSub(True, bf2.output(0), in0)
# Should overload float*OutputPort as well
m0 = ConstantMultiplication(c50, bf2.output(0))
m1 = ConstantMultiplication(c51, bf0.output(1))
m2 = c52 * a0
m3 = ConstantMultiplication(c53, bf2.output(1))
m4 = ConstantMultiplication(c54, bf1.output(1))
a2 = AddSub(True, m0, a1)
a3 = AddSub(False, m3, m2)
a4 = AddSub(True, m3, m4)
bf3 = R2Butterfly(a2, m1)
bf4 = R2Butterfly(bf3.output(0), a3)
bf5 = R2Butterfly(bf3.output(1), a4)

out0 = Output(a1, "X0")
out1 = Output(bf4.output(0), "X1")
out2 = Output(bf4.output(1), "X2")
out4 = Output(bf5.output(0), "X4")
out3 = Output(bf5.output(1), "X3")

sfg = SFG(
    inputs=[in0, in1, in2, in3, in4],
    outputs=[out0, out1, out2, out3, out4],
    name="5-point Winograd DFT",
)

# %%
# The SFG looks like
sfg

# %%
# Set latencies and execution times
sfg.set_latency_of_type(ConstantMultiplication, 2)
sfg.set_latency_of_type(AddSub, 1)
sfg.set_latency_of_type(R2Butterfly, 1)
sfg.set_execution_time_of_type(ConstantMultiplication, 1)
sfg.set_execution_time_of_type(AddSub, 1)
sfg.set_execution_time_of_type(R2Butterfly, 1)

# %%
# Generate schedule
schedule = Schedule(sfg, cyclic=True)
schedule

# %%
# Reschedule to only use one AddSub, one R2Butterfly, and one ConstantMultiplication per
# time unit

schedule.set_schedule_time(10)
schedule.move_operation("out4", 12)
schedule.move_operation("out3", 11)
schedule.move_operation("out2", 10)
schedule.move_operation("out1", 9)
schedule.move_operation("out0", 12)
schedule.move_operation("r2bfly3", 10)
schedule.move_operation("r2bfly2", 9)
schedule.move_operation("r2bfly1", 7)
schedule.move_operation("addsub4", 5)
schedule.move_operation("addsub2", 5)
schedule.move_operation("addsub1", 5)
schedule.move_operation("cmul4", 4)
schedule.move_operation("cmul2", 4)
schedule.move_operation("cmul0", 5)
schedule.move_operation("addsub0", 6)
schedule.move_operation("cmul1", 6)
schedule.move_operation("addsub3", 4)
schedule.move_operation("r2bfly0", 4)
schedule.move_operation("cmul3", 6)
schedule.move_operation("r2bfly5", 4)
schedule.move_operation("r2bfly4", 4)
schedule.move_operation("in1", 1)
schedule.move_operation("in2", 2)
schedule.move_operation("in3", 3)
schedule.move_operation("in4", 4)
schedule.move_operation("r2bfly5", -1)
schedule.move_operation("r2bfly3", 1)
schedule.move_operation("cmul2", 1)
schedule.move_operation("cmul4", 1)
schedule.move_operation("r2bfly0", 1)
schedule.move_operation("addsub0", -1)
schedule.move_operation("cmul1", -3)
schedule.move_operation("cmul3", -2)
schedule.move_operation("cmul4", -1)
schedule.move_operation("addsub4", 1)
schedule.move_operation("addsub1", 2)
schedule.move_operation("cmul0", 1)
schedule.move_operation("r2bfly0", -1)
schedule.move_operation("addsub0", -1)
schedule.move_operation("r2bfly2", -1)
schedule.move_operation("cmul2", -1)
schedule.move_operation("cmul4", 1)
schedule.move_operation("addsub2", -1)
schedule.move_operation("addsub4", -1)
schedule.move_operation("addsub1", -1)
schedule.move_operation("r2bfly1", -1)
schedule.move_operation("r2bfly2", -2)
schedule.move_operation("r2bfly3", -1)
schedule

# %%
# Extract memory variables and operation executions
operations = schedule.get_operations()
adders = operations.get_by_type_name(AddSub.type_name())
adders.show(title="AddSub executions")
mults = operations.get_by_type_name("cmul")
mults.show(title="Multiplier executions")
butterflies = operations.get_by_type_name(R2Butterfly.type_name())
butterflies.show(title="R2Butterfly executions")
inputs = operations.get_by_type_name("in")
inputs.show(title="Input executions")
outputs = operations.get_by_type_name("out")
outputs.show(title="Output executions")

addsub = ProcessingElement(adders, entity_name="addsub")
butterfly = ProcessingElement(butterflies, entity_name="butterfly")
multiplier = ProcessingElement(mults, entity_name="multiplier")
pe_in = ProcessingElement(inputs, entity_name="input")
pe_out = ProcessingElement(outputs, entity_name="output")

mem_vars = schedule.get_memory_variables()
mem_vars.show(title="All memory variables")
direct, mem_vars = mem_vars.split_on_length()
mem_vars.show(title="Non-zero time memory variables")
direct.show(title="Direct interconnects")
mem_vars_set = mem_vars.split_on_ports(read_ports=1, write_ports=1, total_ports=2)

memories = []
for i, mem in enumerate(mem_vars_set):
    memory = Memory(mem, memory_type="RAM", entity_name=f"memory{i}")
    memories.append(memory)
    mem.show(title=f"{memory.entity_name} variables")
    memory.assign("left_edge")
    memory.show_content(title=f"Assigned {memory.entity_name}")

fig, ax = plt.subplots()
fig.suptitle("Exclusion graph based on ports")
nx.draw(mem_vars.exclusion_graph_from_ports(1, 1, 2), ax=ax)

# %%
# Create architecture
arch = Architecture(
    [addsub, butterfly, multiplier, pe_in, pe_out],
    memories,
    direct_interconnects=direct,
)

arch

# %%
# Move memory variables to optimize architecture
arch.move_process("addsub2.0", "memory3", "memory2")
arch.move_process("r2bfly2.0", "memory2", "memory3")
arch.move_process("cmul2.0", "memory1", "memory0")
arch.move_process("r2bfly3.0", "memory0", "memory1")
arch.move_process("r2bfly3.1", "memory4", "memory0")

arch.assign_resources()

# %%
# Memory 4 is now empty, so remove it.

arch.remove_resource("memory4")

for memory in arch.memories:
    memory.show_content(title=f"Improved {memory.entity_name}")

arch