module partsel_test001(input [2:0] idx, input [31:0] data, output [3:0] slice_up, slice_down); wire [5:0] offset = idx << 2; assign slice_up = data[offset +: 4]; assign slice_down = data[offset + 3 -: 4]; endmodule module partsel_test002 ( input clk, rst, input [7:0] a, input [0:7] b, input [1:0] s, output [7:0] x1, x2, x3, output [0:7] x4, x5, x6, output [7:0] y1, y2, y3, output [0:7] y4, y5, y6, output [7:0] z1, z2, z3, output [0:7] z4, z5, z6, output [7:0] w1, w2, w3, output [0:7] w4, w5, w6, output [7:0] p1, p2, p3, p4, p5, p6, output [0:7] q1, q2, q3, q4, q5, q6, output reg [7:0] r1, output reg [0:7] r2 ); assign x1 = a, x2 = a + b, x3 = b; assign x4 = a, x5 = a + b, x6 = b; assign y1 = a[4 +: 3], y2 = a[4 +: 3] + b[4 +: 3], y3 = b[4 +: 3]; assign y4 = a[4 +: 3], y5 = a[4 +: 3] + b[4 +: 3], y6 = b[4 +: 3]; assign z1 = a[4 -: 3], z2 = a[4 -: 3] + b[4 -: 3], z3 = b[4 -: 3]; assign z4 = a[4 -: 3], z5 = a[4 -: 3] + b[4 -: 3], z6 = b[4 -: 3]; assign w1 = a[6:3], w2 = a[6:3] + b[3:6], w3 = b[3:6]; assign w4 = a[6:3], w5 = a[6:3] + b[3:6], w6 = b[3:6]; assign p1 = a[s], p2 = b[s], p3 = a[s+2 +: 2], p4 = b[s+2 +: 2], p5 = a[s+2 -: 2], p6 = b[s+2 -: 2]; assign q1 = a[s], q2 = b[s], q3 = a[s+2 +: 2], q4 = b[s+2 +: 2], q5 = a[s+2 -: 2], q6 = b[s+2 -: 2]; always @(posedge clk) begin if (rst) begin { r1, r2 } = 16'h1337 ^ {a, b}; end else begin case (s) 0: begin r1[3:0] <= r2[0:3] ^ x1; r2[4:7] <= r1[7:4] ^ x4; end 1: begin r1[2 +: 3] <= r2[5 -: 3] + x1; r2[3 +: 3] <= r1[6 -: 3] + x4; end 2: begin r1[6 -: 3] <= r2[3 +: 3] - x1; r2[7 -: 3] <= r1[4 +: 3] - x4; end 3: begin r1 <= r2; r2 <= r1; end endcase end end endmodule module partsel_test003(input [2:0] a, b, input [31:0] din, output [3:0] dout); assign dout = din[a*b +: 2]; endmodule module partsel_test004 ( input [31:0] din, input signed [4:0] n, output reg [31:0] dout ); always @(*) begin dout = 0; dout[n+1 +: 2] = din[n +: 2]; end endmodule module partsel_test005 ( input [31:0] din, input signed [4:0] n, output reg [31:0] dout ); always @(*) begin dout = 0; dout[n+1] = din[n]; end endmodule module partsel_test006 ( input [31:-32] din, input signed [4:0] n, output reg [31:-32] dout ); always @(*) begin dout = 0; dout[n+1 +: 2] = din[n +: 2]; end endmodule module partsel_test007 ( input [31:-32] din, input signed [4:0] n, output reg [31:-32] dout ); always @(*) begin dout = 0; dout[n+1] = din[n]; end endmodule module partsel_test008 ( input [127:0] din, input [3:0] idx, input [4:0] uoffset, input signed [4:0] soffset, output [ 7:0] dout0, output [ 7:0] dout1, output [ 7:0] dout2, output [ 7:0] dout3, output [ 3:0] dout4, output [ 3:0] dout5, output [ 3:0] dout6, output [ 3:0] dout7, output [ 3:0] dout8, output [11:0] dout9, output [11:0] dout10, output [11:0] dout11 ); // common: block-select with offsets assign dout0 = din[idx*8 +uoffset +:8]; assign dout1 = din[idx*8 -uoffset +:8]; assign dout2 = din[idx*8 +soffset +:8]; assign dout3 = din[idx*8 -soffset +:8]; // only partial block used assign dout4 = din[idx*8 +uoffset +:4]; assign dout5 = din[idx*8 -uoffset +:4]; assign dout6 = din[idx*8 +soffset +:4]; assign dout7 = din[idx*8 -soffset +:4]; // uncommon: more than one block used assign dout8 = din[idx*8 +uoffset +:12]; assign dout9 = din[idx*8 -uoffset +:12]; assign dout10 = din[idx*8 +soffset +:12]; assign dout11 = din[idx*8 -soffset +:12]; endmodule