// XXX: A chatbot wrote this, might be complete crack

module cic3_pdm (
    input  wire        clk,        // PDM clock
    input  wire        rst,        // active-high synchronous reset
    input  wire        pdm_in,     // 1-bit PDM data input
    output wire signed [15:0] pcm_out, // Decimated PCM output
    output wire        pcm_valid   // High when pcm_out is valid
);
    parameter DECIMATION = 64; // Decimation factor

    // Internal registers
    reg signed [31:0] integrator_0 = 0;
    reg signed [31:0] integrator_1 = 0;
    reg signed [31:0] integrator_2 = 0;

    reg [5:0] decim_counter = 0;
    reg signed [31:0] comb_0 = 0, comb_1 = 0, comb_2 = 0;
    reg signed [31:0] delay_0 = 0, delay_1 = 0, delay_2 = 0;

    reg signed [15:0] pcm_out_r = 0;
    reg pcm_valid_r = 0;

    // Integrator stage (runs every clk)
    always @(posedge clk) begin
        if (rst) begin
            integrator_0 <= 0;
            integrator_1 <= 0;
            integrator_2 <= 0;
        end else begin
            integrator_0 <= integrator_0 + (pdm_in ? 1 : -1);
            integrator_1 <= integrator_1 + integrator_0;
            integrator_2 <= integrator_2 + integrator_1;
        end
    end

    // Decimation counter
    always @(posedge clk) begin
        if (rst)
            decim_counter <= 0;
        else
            decim_counter <= decim_counter + 1;
    end

    // Comb stage (runs every DECIMATION clocks)
    always @(posedge clk) begin
        pcm_valid_r <= 0;
        if (decim_counter == DECIMATION[5:0] - 1) begin
            comb_0 <= integrator_2 - delay_0;
            delay_0 <= integrator_2;

            comb_1 <= comb_0 - delay_1;
            delay_1 <= comb_0;

            comb_2 <= comb_1 - delay_2;
            delay_2 <= comb_1;

            // Bit-shift down to get 16-bit output (tune shift based on DECIMATION and stage count)
            pcm_out_r <= comb_2[31:16]; 
            pcm_valid_r <= 1;
        end
    end

    assign pcm_out = pcm_out_r;
    assign pcm_valid = pcm_valid_r;

endmodule