X-Git-Url: https://git.sesse.net/?p=c64tapwav;a=blobdiff_plain;f=decode.cpp;h=8ed2f1b4e7714c9d3a8776aec9e26e30ee142b41;hp=c9a5ded52741f233ccf877c3f7384d1dbdc37bce;hb=d693db9567105ab7837addb952c2553d2dfa9543;hpb=ea559cf143beb9b6305293a355a66fef1a0bed4a

diff --git a/decode.cpp b/decode.cpp
index c9a5ded..8ed2f1b 100644
--- a/decode.cpp
+++ b/decode.cpp
@@ -1,32 +1,24 @@
 #include <stdio.h>
 #include <string.h>
 #include <math.h>
-#include <unistd.h>
 #include <assert.h>
 #include <limits.h>
 #include <vector>
 #include <algorithm>
 
+#include "audioreader.h"
 #include "interpolate.h"
+#include "tap.h"
 
 #define BUFSIZE 4096
 #define HYSTERESIS_LIMIT 3000
-#define SAMPLE_RATE 44100
 #define C64_FREQUENCY 985248
-#define TAP_RESOLUTION 8
 
 #define SYNC_PULSE_START 1000
-#define SYNC_PULSE_END 15000
+#define SYNC_PULSE_END 20000
 #define SYNC_PULSE_LENGTH 378.0
 #define SYNC_TEST_TOLERANCE 1.10
 
-struct tap_header {
-	char identifier[12];
-	char version;
-	char reserved[3];
-	unsigned int data_len;
-};
-
 // between [x,x+1]
 double find_zerocrossing(const std::vector<short> &pcm, int x)
 {
@@ -58,19 +50,68 @@ struct pulse {
 	double time;  // in seconds from start
 	double len;   // in seconds
 };
+
+// Calibrate on the first ~25k pulses (skip a few, just to be sure).
+double calibrate(const std::vector<pulse> &pulses) {
+	if (pulses.size() < SYNC_PULSE_END) {
+		fprintf(stderr, "Too few pulses, not calibrating!\n");
+		return 1.0;
+	}
+
+	int sync_pulse_end = -1;
+	double sync_pulse_stddev = -1.0;
+
+	// Compute the standard deviation (to check for uneven speeds).
+	// If it suddenly skyrockets, we assume that sync ended earlier
+	// than we thought (it should be 25000 cycles), and that we should
+	// calibrate on fewer cycles.
+	for (int try_end : { 2000, 4000, 5000, 7500, 10000, 15000, SYNC_PULSE_END }) {
+		double sum2 = 0.0;
+		for (int i = SYNC_PULSE_START; i < try_end; ++i) {
+			double cycles = pulses[i].len * C64_FREQUENCY;
+			sum2 += (cycles - SYNC_PULSE_LENGTH) * (cycles - SYNC_PULSE_LENGTH);
+		}
+		double stddev = sqrt(sum2 / (try_end - SYNC_PULSE_START - 1));
+		if (sync_pulse_end != -1 && stddev > 5.0 && stddev / sync_pulse_stddev > 1.3) {
+			fprintf(stderr, "Stopping at %d sync pulses because standard deviation would be too big (%.2f cycles); shorter-than-usual trailer?\n",
+				sync_pulse_end, stddev);
+			break;
+		}
+		sync_pulse_end = try_end;
+		sync_pulse_stddev = stddev;
+	}
+	fprintf(stderr, "Sync pulse length standard deviation: %.2f cycles\n",
+		sync_pulse_stddev);
+
+	double sum = 0.0;
+	for (int i = SYNC_PULSE_START; i < sync_pulse_end; ++i) {
+		sum += pulses[i].len;
+	}
+	double mean_length = C64_FREQUENCY * sum / (sync_pulse_end - SYNC_PULSE_START);
+	double calibration_factor = SYNC_PULSE_LENGTH / mean_length;
+	fprintf(stderr, "Calibrated sync pulse length: %.2f -> %.2f (change %+.2f%%)\n",
+		mean_length, SYNC_PULSE_LENGTH, 100.0 * (calibration_factor - 1.0));
+
+	// Check for pulses outside +/- 10% (sign of misdetection).
+	for (int i = SYNC_PULSE_START; i < sync_pulse_end; ++i) {
+		double cycles = pulses[i].len * calibration_factor * C64_FREQUENCY;
+		if (cycles < SYNC_PULSE_LENGTH / SYNC_TEST_TOLERANCE || cycles > SYNC_PULSE_LENGTH * SYNC_TEST_TOLERANCE) {
+			fprintf(stderr, "Sync cycle with downflank at %.6f was detected at %.0f cycles; misdetect?\n",
+				pulses[i].time, cycles);
+		}
+	}
+
+	return calibration_factor;
+}
 	
 int main(int argc, char **argv)
 {
 	make_lanczos_weight_table();
 	std::vector<short> pcm;
-
-	while (!feof(stdin)) {
-		short buf[BUFSIZE];
-		ssize_t ret = fread(buf, 2, BUFSIZE, stdin);
-		if (ret >= 0) {
-			pcm.insert(pcm.end(), buf, buf + ret);
-		}
-	}	
+	int sample_rate;
+	if (!read_audio_file(argv[1], &pcm, &sample_rate)) {
+		exit(1);
+	}
 
 #if 0
 	for (int i = 0; i < LEN; ++i) {
@@ -108,14 +149,14 @@ int main(int argc, char **argv)
 			if (!true_pulse) {
 #if 0
 				fprintf(stderr, "Ignored down-flank at %.6f seconds due to hysteresis (%d < %d).\n",
-					double(i) / SAMPLE_RATE, -min_level_after, HYSTERESIS_LIMIT);
+					double(i) / sample_rate, -min_level_after, HYSTERESIS_LIMIT);
 #endif
 				i = j;
 				continue;
 			} 
 
 			// down-flank!
-			double t = find_zerocrossing(pcm, i - 1) * (1.0 / SAMPLE_RATE);
+			double t = find_zerocrossing(pcm, i - 1) * (1.0 / sample_rate);
 			if (last_downflank > 0) {
 				pulse p;
 				p.time = t;
@@ -127,39 +168,7 @@ int main(int argc, char **argv)
 		last_bit = bit;
 	}
 
-	// Calibrate on the first ~25k pulses (skip a few, just to be sure).
-	double calibration_factor = 1.0f;
-	if (pulses.size() < SYNC_PULSE_END) {
-		fprintf(stderr, "Too few pulses, not calibrating!\n");
-	} else {
-		double sum = 0.0;
-		for (int i = SYNC_PULSE_START; i < SYNC_PULSE_END; ++i) {
-			sum += pulses[i].len;
-		}
-		double mean_length = C64_FREQUENCY * sum / (SYNC_PULSE_END - SYNC_PULSE_START);
-		calibration_factor = SYNC_PULSE_LENGTH / mean_length;
-		fprintf(stderr, "Calibrated sync pulse length: %.2f -> %.2f (change %+.2f%%)\n",
-			mean_length, SYNC_PULSE_LENGTH, 100.0 * (calibration_factor - 1.0));
-
-		// Check for pulses outside +/- 10% (sign of misdetection).
-		for (int i = SYNC_PULSE_START; i < SYNC_PULSE_END; ++i) {
-			double cycles = pulses[i].len * calibration_factor * C64_FREQUENCY;
-			if (cycles < SYNC_PULSE_LENGTH / SYNC_TEST_TOLERANCE || cycles > SYNC_PULSE_LENGTH * SYNC_TEST_TOLERANCE) {
-				fprintf(stderr, "Sync cycle with downflank at %.6f was detected at %.0f cycles; misdetect?\n",
-					pulses[i].time, cycles);
-			}
-		}
-
-		// Compute the standard deviation (to check for uneven speeds).
-		double sum2 = 0.0;
-		for (int i = SYNC_PULSE_START; i < SYNC_PULSE_END; ++i) {
-			double cycles = pulses[i].len * calibration_factor * C64_FREQUENCY;
-			sum2 += (cycles - SYNC_PULSE_LENGTH) * (cycles - SYNC_PULSE_LENGTH);
-		}
-		double stddev = sqrt(sum2 / (SYNC_PULSE_END - SYNC_PULSE_START - 1));
-		fprintf(stderr, "Sync pulse length standard deviation: %.2f cycles\n",
-			stddev);
-	}
+	double calibration_factor = calibrate(pulses);
 
 	FILE *fp = fopen("cycles.plot", "w");
 	std::vector<char> tap_data;
@@ -198,7 +207,7 @@ int main(int argc, char **argv)
 	short zero = 0;
 	unsigned pulsenum = 0;
 	for (unsigned i = 0; i < pcm.size(); ++i) {
-		unsigned next_pulse = (pulsenum >= pulses.size()) ? INT_MAX : int(pulses[pulsenum].time * SAMPLE_RATE);
+		unsigned next_pulse = (pulsenum >= pulses.size()) ? INT_MAX : int(pulses[pulsenum].time * sample_rate);
 		if (i >= next_pulse) {
 			fwrite(&one, sizeof(one), 1, fp);
 			++pulsenum;