写在前面的话
这个小小的语法这几天把我搞得头疼 今天集中说明一下 这个小问题 也是做个记录 留着以后查看
参考Verilog-2001语法规范
先官宣一下:
Bit-selects extract a particular bit from a vector net, vector reg, integer variable, or time variable. The bit can be addressed using an expression. If the bit-select is out of the address bounds or the bit-select is x or z, then the value returned by the reference shall be x. The bit-select or part-select of a variable declared as real or realtime shall be considered illegal.
Several contiguous bits in a vector net, vector reg, integer variable, or time variable can be addressed and are known as part-selects. There are two types of part-selects, a constant part-select and an indexed part-select.
A constant part-select of a vector reg or net is given with the following syntax:
vect[msb_expr:lsb_expr] 例如: vect[31:0]
Both expressions shall be constant expressions. The first expression has to address a more significant bit than the second expression. If the part-select is out of the address bounds or the part-select is x or z, then the value returned by the reference shall be x.
An indexed part select of a vector net, vector reg, integer variable, or time variable is given with the following syntax:
reg [15:0] big_vect;
reg [0:15] little_vect;
big_vect[lsb_base_expr +: width_expr]
little_vect[msb_base_expr +: width_expr]
big_vect[msb_base_expr -: width_expr]
little_vect[lsb_base_expr -: width_expr]
The width_expr shall be a constant expression. It also shall not be affected by run-time parameter assignments. The lsb_base_expr and msb_base_expr can vary at run-time. The first two examples select bits starting at the base and ascending the bit range. The number of bits selected is equal to the width expression. The second two examples select bits starting at the base and descending the bit range. Part-selects that address a range of bits that are completely out of the address bounds of the net, reg, integer, or time, or when the part-select is x or z, shall yield the value x when read, and shall have no effect on the data stored when written.
Part-selects that are partially out of range shall when read return x for the bits that are out of range, and
when written shall only affect the bits that are in range.
Examples:
reg [31:0] big_vect;
reg [0:31] little_vect;
reg [63:0] dword;
integer sel;
The first four if statements show the identity between the two part select constructs. The last one shows an
indexable nature.
initial begin
if ( big_vect[0 +:8] == big_vect[7 : 0]) begin end
if (little_vect[0 +:8] == little_vect[0 : 7]) begin end
if ( big_vect[15 -:8] == big_vect[15 : 8]) begin end
if (little_vect[15 -:8] == little_vect[8 :15]) begin end
if (sel >0 && sel < 8) dword[8sel +:8] = big_vect[7:0];
// Replace the byte selected.*
大概总结了一下,小小的语法咱们也来个三步走战略,是不是高大上吗哈哈哈哈哈
reg [31:0] big_vect;
reg [0:31] little_vect;
举例说明:
reg [31:0] big_vect;
reg [0:31] little_vect;
问题:
big_vect[0 +:8]
little_vect[0 +:8]
看完了上面的战略,现在开始小试牛刀吧,解决上面的问题
reg [31:0] big_vect;为大端,那么转化后的也一定是大端,**形式不变**
big_vect[0 +:8]转化后一定是 big_vect[较大的数值 **:** 较小的数值]
little_vect[0 +:8] 转化后一定是 little_vect[较小的数值 **:** 较大的数值]
big_vect [0 +: 8] 从0 开始,升序,位宽为8 ======》》》》》big_vect [7 :0]
little_vect [0 +: 8] 从0 开始,升序,位宽为8 ======》》》》》little_vect [0 :7]
big_vect [15 -: 8] 从15开始,降序,位宽为8 ======》》》》》big_vect [15 :8]
little_vect [15 -: 8] 从15开始,降序,位宽为8 ======》》》》》little_vect [8:15]
送点福利,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
再举个例子;在实际项目中遇到的:
output reg [767:0] s_axi_tx_tdata,
genvar i;
generate
for(i=0;i<24;i=i+1)
begin : TDATA_GEN
always @ ( posedge aurora_lclk or negedge rst_n )
begin
if( rst_n == 1'b0 )
s_axi_tx_tdata[i*32+:32] <= #U_DLY i;
else if({s_axi_tx_tvalid,s_axi_tx_tready,s_axi_tx_tlast} == 3'b110)
s_axi_tx_tdata[i*32+:32] <= #U_DLY s_axi_tx_tdata[i*32+:32] + 32'h18;
else if({s_axi_tx_tvalid,s_axi_tx_tready,s_axi_tx_tlast} == 3'b111)
s_axi_tx_tdata[i*32+:32] <= #U_DLY s_axi_tx_tdata[i*32+:32] + 32'd16;
else;
end
end
endgenerate
咱们还是三步走吧!!!
s_axi_tx_tdata的定义形式output reg [767:0] s_axi_tx_tdata,
大端形式(其实管他干个毛呀)要求形式一样就可以了的
s_axi_tx_tdata[i*32+:32]为升序
s_axi_tx_tdata[i*32+:32]**形式**为s_axi_tx_tdata[较大的数值****:****较小的数值],**升序**,**位宽**为32**且**从i*32开始
当i=0时,s_axi_tx_tdata[i*32+:32] **转化** s_axi_tx_tdata[31:0]
当i=1时,s_axi_tx_tdata[i*32+:32] **转化** s_axi_tx_tdata[63:32]
当i=2时,s_axi_tx_tdata[i*32+:32] **转化** s_axi_tx_tdata[95:64]
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## **当i时,s_axi_tx_tdata[i*32+:32] **转化** s_axi_tx_tdata[i*32+32-1:i*32]**
如果时降序呢
类似:s_axi_tx_tdata[i*32-:32]
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