From: unknown <s0042331@.dynamic.ewi.utwente.nl>
Date: Tue, 1 Apr 2008 13:56:01 +0000 (+0200)
Subject:  * Let the libmontiumc write the contents of the input memories to file before
X-Git-Url: https://git.stderr.nl/gitweb?p=matthijs%2Fprojects%2Fmontium-fft.git;a=commitdiff_plain;h=00b2c5a7eced88e39b762255d361d61f78e2abe3

 * Let the libmontiumc write the contents of the input memories to file before
   starting, so we can use them in the python simulator.
 * Output the results in hex as well as fixed point format.
 * Fix some comments.
---

diff --git a/FFT_support.cpp b/FFT_support.cpp
index e482b2d..7fc2484 100644
--- a/FFT_support.cpp
+++ b/FFT_support.cpp
@@ -2,8 +2,7 @@
 #include <cstdio>
 #include <cmath>
 
-
-/* Didn't the Montium use Q15 instead of Q14? */
+/* Use Q15 fixed point format (1 sign bit plus 15 fractional bits) */
 #define FIXED_POINT 15
 #define WORD_SIZE   16
 
@@ -102,12 +101,20 @@ void pre_run()
 	print_mem(input_a_re, 0, PARAM_N_t/2, true);
 	printf("re(in_b)\n");
 	print_mem(input_b_re, 0, PARAM_N_t/2, true);
+	
+/* Write out memory contents for use by the python simulator */
+	save_mem_range_to_file(input_a_re->id, 0, PARAM_N_t/2, "Memory/sin_a_re.mm");
+	save_mem_range_to_file(input_a_im->id, 0, PARAM_N_t/2, "Memory/sin_a_im.mm");
+	save_mem_range_to_file(input_b_re->id, 0, PARAM_N_t/2, "Memory/sin_b_re.mm");
+	save_mem_range_to_file(input_b_im->id, 0, PARAM_N_t/2, "Memory/sin_b_im.mm");
+	save_mem_range_to_file(twiddle_re->id, 0, PARAM_N_t/2, "Memory/twiddle_re.mm");
+	save_mem_range_to_file(twiddle_im->id, 0, PARAM_N_t/2, "Memory/twiddle_im.mm");
 }
 
 void post_run()
 {
 	if (PARAM_n_t % 2 == 0) {
-		/* When the number of stages is odd, the 
+		/* When the number of stages is even, the 
 		 * outputs end up at the left memories again */
 		output_a_re  = alloc_mem(P0M0);
 		output_a_im  = alloc_mem(P1M0);
@@ -125,5 +132,12 @@ void post_run()
 	printf("im(out)\n");
 	print_mem(output_a_im, 0, PARAM_N_t/2, true);
 	print_mem(output_b_im, 0, PARAM_N_t/2, true);
+	
+	printf("re(out)\n");
+	print_mem(output_a_re, 0, PARAM_N_t/2, false);
+	print_mem(output_b_re, 0, PARAM_N_t/2, false);
+	printf("im(out)\n");
+	print_mem(output_a_im, 0, PARAM_N_t/2, false);
+	print_mem(output_b_im, 0, PARAM_N_t/2, false);
 
 }