* Actually make the output addressing different in the second half, it was

[matthijs/projects/montium-fft.git] / FFT_support.cpp

#include "FFT.h"\r
#include <cstdio>\r
#include <cmath>\r
\r
\r
/* Didn't the Montium use Q15 instead of Q14? */\r
#define FIXED_POINT 15\r
#define WORD_SIZE   16\r
\r
#define WORDS_PER_LINE 4\r
#define WORDS_PER_GROUP 1\r
\r
mem input_a_re, input_a_im, input_b_re, input_b_im, output_a_re, output_a_im, output_b_re, output_b_im, twiddle_re, twiddle_im; \r
\r
int to_fixed(float n)\r
{\r
        int res = (int)(n * (1 << FIXED_POINT));\r
        /* Crop results */\r
        if (res > (1 << WORD_SIZE - 1) - 1)\r
                return (1 << WORD_SIZE - 1) - 1;\r
        if (res < -(1 << WORD_SIZE - 1))\r
                return -(1 << WORD_SIZE - 1);\r
        return res;\r
}\r
\r
float from_fixed(int n)\r
{\r
        return n / (float)(1<<FIXED_POINT);\r
}\r
\r
void print_mem(mem m, int offset, int size, bool fixed)\r
{\r
        int i;\r
        for(i = offset;i<offset+size;i++)\r
        {\r
                if (fixed)\r
                        printf("%0.4f", from_fixed(get_mem(m->id, i)));\r
                else\r
                        printf("%04hx", (short)get_mem(m->id, i));\r
                if ((i + 1) % WORDS_PER_LINE == 0)\r
                        printf("\n");\r
                else if ((i + 1) % WORDS_PER_GROUP == 0)\r
                        printf(" ");\r
        }\r
        if (i % WORDS_PER_LINE != 0)\r
                printf("\n");\r
}\r
\r
\r
void pre_run()\r
{\r
        int i;\r
        /* Assign memories, at least for the first stage */\r
        input_a_re   = alloc_mem(P0M0);\r
        input_a_im   = alloc_mem(P1M0);\r
        input_b_re   = alloc_mem(P2M0);\r
        input_b_im   = alloc_mem(P3M0);\r
        \r
        twiddle_re   = alloc_mem(P4M0);\r
        twiddle_im   = alloc_mem(P4M1);\r
        \r
        /* TODO: Init memory and twiddles */\r
        for (i=0;i<PARAM_N_t/2;i++)\r
        {\r
                set_mem(twiddle_re->id, i, to_fixed(cos(i*2*M_PI/PARAM_N_t)));\r
                set_mem(twiddle_im->id, i, to_fixed(sin(i*2*M_PI/PARAM_N_t)));\r
        }\r
        \r
        for (i=0;i<PARAM_N_t;i++)\r
        {\r
                int value = to_fixed(sin((float)i*2*M_PI/PARAM_N_t));\r
\r
                if (i<PARAM_N_t/2)\r
                {\r
                        if (i % 2 == 0) {\r
                                set_mem(input_a_re->id, i, value);\r
                                set_mem(input_a_im->id, i, 0);\r
                        } else {\r
                                set_mem(input_b_re->id, i, value);\r
                                set_mem(input_b_im->id, i, 0);\r
                        }\r
                }\r
                else\r
                {\r
                        if (i % 2 == 0) {\r
                                set_mem(input_b_re->id, i - PARAM_N_t/2, value);\r
                                set_mem(input_b_im->id, i - PARAM_N_t/2, 0);\r
                        } else {\r
                                set_mem(input_a_re->id, i - PARAM_N_t/2, value);\r
                                set_mem(input_a_im->id, i - PARAM_N_t/2, 0);\r
                        }\r
                }\r
        }\r
        \r
        printf("re(W)\n");\r
        print_mem(twiddle_re, 0, PARAM_N_t/2, true);\r
        printf("im(W)\n");\r
        print_mem(twiddle_im, 0, PARAM_N_t/2, true);\r
        printf("re(in_a)\n");\r
        print_mem(input_a_re, 0, PARAM_N_t/2, true);\r
        printf("re(in_b)\n");\r
        print_mem(input_b_re, 0, PARAM_N_t/2, true);\r
}\r
\r
void post_run()\r
{\r
        if (PARAM_n_t % 2 == 0) {\r
                /* When the number of stages is odd, the \r
                 * outputs end up at the left memories again */\r
                output_a_re  = alloc_mem(P0M0);\r
                output_a_im  = alloc_mem(P1M0);\r
                output_b_re  = alloc_mem(P2M0);\r
                output_b_im  = alloc_mem(P3M0);\r
        } else {\r
                output_a_re  = alloc_mem(P0M1);\r
                output_a_im  = alloc_mem(P1M1);\r
                output_b_re  = alloc_mem(P2M1);\r
                output_b_im  = alloc_mem(P3M1);\r
        }\r
        printf("re(out_a)\n");\r
        print_mem(output_a_re, 0, PARAM_N_t/2, true);\r
        print_mem(output_b_re, 0, PARAM_N_t/2, true);\r
        printf("im(out_a)\n");\r
        print_mem(output_a_im, 0, PARAM_N_t/2, true);\r
        print_mem(output_b_im, 0, PARAM_N_t/2, true);\r
\r
}\r