URL
https://opencores.org/ocsvn/mblite/mblite/trunk
Subversion Repositories mblite
[/] [mblite/] [trunk/] [sw/] [util/] [bin2vhd_4x8b.c] - Rev 7
Go to most recent revision | Compare with Previous | Blame | View Log
/******************************************************************************* * * File: bin2vhd_4x8b.c * Description: Converts a 32-bit big endian .bin file into a VHDL description * containing 4 initialized 8-bit RAM instances to be used with * the mbLite (ram0 containing the msb's, ram3 the lsb's). * Syntax: bin2vhd_4x8b INFILENAME OUTFILENAME ABITS * with ABITS representing the number of address bits * ( equal to ceil(log2(MEMORY DEPTH)) ). * * Author: Rene van Leuken, edited and extended by Huib * Date: this version, February 2010 * * Note: No checks, e.g. on inputfile being a multiple of 4 bytes * ********************************************************************************/ #include <stdio.h> #include <string.h> unsigned power (unsigned base, unsigned n) { unsigned p; for( p = 1; n > 0; --n) p = p*base; return p; } void print_help(char * name) { fprintf(stderr, "%s converts a binary file into a VHDL ram file\n", name); fprintf(stderr, "Usage: %s INFILE OUTFILE ABITS\n", name); fprintf(stderr, "where ABITS (number of address bits) is log2(MEMORY DEPTH)\n"); } int main(int argc, char *argv[]) { FILE *infile, *outfile; int c[4], insize; unsigned ram_size; unsigned i = 0; unsigned m = 0; if (argc != 4) { print_help(argv[0]); return(1); } infile = fopen(argv[1], "rb"); if (!infile) { printf("Cannot open file %s\n", argv[1]); return(1); } outfile = fopen(argv[2], "w"); if (!outfile) { printf("Cannot open file %s\n", argv[2]); return(1); } if (strlen(argv[3]) <= 0) { printf("Argument ABITS missing", argv[3]); return(1); } ram_size = power(2, atoi(argv[3])) * 1; // determine the size of the input file in bytes fseek(infile, 0, SEEK_END); insize = ftell(infile); rewind(infile); if (insize/4 > ram_size) { printf("RAM size (%d words) too small (at least %d words needed", ram_size, insize/4); return(1); } fprintf(outfile,"\ --------------------------------------------------------------------------------\n\ --\n\ -- Filename : dmem4.vhd\n\ -- Entity : dmem4\n\ -- Input from : %s\n\ -- Description : Single Port Synchronous Random Access (Instruction) Memory\n\ -- with 4 write enable ports.\n\ -- Author : Rene van Leuken, modified by Huib\n\ -- Company : Delft University of Technology\n\ --\n\ --------------------------------------------------------------------------------\n\ \n\ LIBRARY ieee;\n\ USE ieee.std_logic_1164.ALL;\n\ USE ieee.std_logic_unsigned.ALL;\n\ USE ieee.numeric_std.all;\n\ \n\n\ ENTITY dmem4 IS\n\ GENERIC (\n\ WIDTH_g : POSITIVE := 32;\n\ ABITS_g : POSITIVE := %s\n\ );\n\ PORT (\n\ dat_o : OUT STD_LOGIC_VECTOR (WIDTH_g -1 DOWNTO 0);\n\ dat_i : IN STD_LOGIC_VECTOR (WIDTH_g -1 DOWNTO 0);\n\ adr_i : IN STD_LOGIC_VECTOR (ABITS_g -1 DOWNTO 0);\n\ wre_i : IN STD_LOGIC_VECTOR (3 DOWNTO 0);\n\ ena_i : IN STD_LOGIC;\n\ clk_i : IN STD_LOGIC\n\ );\n\ END dmem4;\n\ \n\n\ ARCHITECTURE arch OF dmem4 IS\n\ \n\ SIGNAL di0, di1, di2, di3 : STD_LOGIC_VECTOR (WIDTH_g/4 -1 DOWNTO 0);\n\ SIGNAL do0, do1, do2, do3 : STD_LOGIC_VECTOR (WIDTH_g/4 -1 DOWNTO 0);\n\ \n\ TYPE ram_type IS ARRAY (0 TO 2**ABITS_g -1) OF STD_LOGIC_VECTOR (WIDTH_g/4 -1 DOWNTO 0);\n\ ", argv[1], argv[3] ); for ( m = 0; m < 4; m++ ) { infile = freopen(argv[1], "rb", infile); i = 0; fprintf(outfile,"\ \nSIGNAL ram%d : ram_type := (", m); while (i < insize) { c[0] = fgetc(infile); c[1] = fgetc(infile); c[2] = fgetc(infile); c[3] = fgetc(infile); if ((i % 32) == 0 ) { fprintf(outfile,"\n "); } fprintf(outfile," X\"%.2X", (unsigned char) c[m] & 0x0ff); if (i < insize-4) { fprintf(outfile,"\","); } else { fprintf(outfile,"\""); } i += 4; } // Fill rest of ram if not full yet i = i/4; while (i < ram_size) { fprintf(outfile,","); if ((i % 8) == 0 ) { fprintf(outfile,"\n "); } fprintf(outfile," X\""); fprintf(outfile,"00"); fprintf(outfile,"\""); i++; } fprintf(outfile," );\n"); } fprintf(outfile,"\n\ \n\ ATTRIBUTE syn_ramstyle : STRING;\n\ ATTRIBUTE syn_ramstyle OF ram0,ram1,ram2,ram3 : SIGNAL IS \"block_ram\";\n\ \n\ BEGIN\n\ \n\ dat_o <= do0 & do1 & do2 & do3;\n\ \n\ di3 <= dat_i( WIDTH_g/4 -1 DOWNTO 0);\n\ di2 <= dat_i( WIDTH_g/2 -1 DOWNTO WIDTH_g/4);\n\ di1 <= dat_i(3*WIDTH_g/4 -1 DOWNTO WIDTH_g/2);\n\ di0 <= dat_i( WIDTH_g -1 DOWNTO 3*WIDTH_g/4);\n\ \n\ do3 <= ram3(TO_INTEGER(UNSIGNED(adr_i)));\n\ do2 <= ram2(TO_INTEGER(UNSIGNED(adr_i)));\n\ do1 <= ram1(TO_INTEGER(UNSIGNED(adr_i)));\n\ do0 <= ram0(TO_INTEGER(UNSIGNED(adr_i)));\n\ \n\ PROCESS(clk_i)\n\ BEGIN\n\ -- wre: 3 downto 0, while di0..di3 in byte reversed format\n\ IF RISING_EDGE(clk_i) THEN\n\ IF ena_i = '1' THEN\n\ IF wre_i(0) = '1' THEN\n\ ram3(TO_INTEGER(UNSIGNED(adr_i))) <= di3;\n\ END IF;\n\ IF wre_i(1) = '1' THEN\n\ ram2(TO_INTEGER(UNSIGNED(adr_i))) <= di2;\n\ END IF;\n\ IF wre_i(2) = '1' THEN\n\ ram1(TO_INTEGER(UNSIGNED(adr_i))) <= di1;\n\ END IF;\n\ IF wre_i(3) = '1' THEN\n\ ram0(TO_INTEGER(UNSIGNED(adr_i))) <= di0;\n\ END IF;\n\ END IF;\n\ END IF;\n\ END PROCESS;\n\ \n\ END ARCHITECTURE arch;\n\ \n\ -- [EOF]\n\ "); fclose(infile); fclose(outfile); return 0; }
Go to most recent revision | Compare with Previous | Blame | View Log