mirror of https://github.com/arendst/Tasmota.git
156 lines
4.0 KiB
C++
156 lines
4.0 KiB
C++
// Copyright 2017 David Conran
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#ifndef TEST_IRSEND_TEST_H_
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#define TEST_IRSEND_TEST_H_
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#define __STDC_LIMIT_MACROS
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#include <stdint.h>
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#include <iostream>
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#include <sstream>
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#include <string>
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#include "IRrecv.h"
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#include "IRsend.h"
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#include "IRtimer.h"
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#define OUTPUT_BUF 10000U
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#define RAW_BUF 10000U
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#ifdef UNIT_TEST
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// Used to help simulate elapsed time in unit tests.
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extern uint32_t _IRtimer_unittest_now;
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#endif // UNIT_TEST
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class IRsendTest : public IRsend {
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public:
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uint32_t output[OUTPUT_BUF];
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uint32_t freq[OUTPUT_BUF];
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uint8_t duty[OUTPUT_BUF];
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uint16_t last;
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uint16_t rawbuf[RAW_BUF];
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decode_results capture;
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explicit IRsendTest(uint16_t x, bool i = false, bool j = true)
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: IRsend(x, i, j) {
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reset();
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}
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void reset() {
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last = 0;
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for (uint16_t i = 0; i < OUTPUT_BUF; i++) output[i] = 0;
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for (uint16_t i = 0; i < RAW_BUF; i++) rawbuf[i] = 0;
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}
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std::string outputStr() {
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std::stringstream result;
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uint8_t lastduty = UINT8_MAX; // An impossible duty cycle value.
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uint32_t lastfreq = 0; // An impossible frequency value.
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if (last == 0 && output[0] == 0) return "";
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for (uint16_t i = 0; i <= last; i++) {
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// Display the frequency only if it changes.
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if (freq[i] != lastfreq) {
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result << "f";
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result << freq[i];
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lastfreq = freq[i];
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}
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// Display the duty cycle only if it changes.
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if (duty[i] != lastduty) {
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result << "d";
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result << static_cast<uint16_t>(duty[i]);
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lastduty = duty[i];
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}
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if ((i & 1) != outputOff) // Odd XOR outputOff
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result << "s";
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else
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result << "m";
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result << output[i];
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}
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reset();
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return result.str();
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}
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void makeDecodeResult(uint16_t offset = 0) {
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capture.decode_type = UNKNOWN;
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capture.bits = 0;
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capture.rawlen = last + 2 - offset;
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capture.overflow = (last - offset >= (int16_t)RAW_BUF);
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capture.repeat = false;
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capture.address = 0;
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capture.command = 0;
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capture.value = 0;
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capture.rawbuf = rawbuf;
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for (uint16_t i = 0; (i < RAW_BUF - 1) && (offset < OUTPUT_BUF);
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i++, offset++)
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if (output[offset] / kRawTick > UINT16_MAX)
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rawbuf[i + 1] = UINT16_MAX;
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else
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rawbuf[i + 1] = output[offset] / kRawTick;
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}
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void dumpRawResult() {
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std::cout << std::dec;
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if (capture.rawlen == 0) return;
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std::cout << "uint16_t rawbuf[" << capture.rawlen - 1 << "] = {";
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for (uint16_t i = 1; i < capture.rawlen; i++) {
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if (i % 8 == 1) std::cout << std::endl << " ";
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std::cout << (capture.rawbuf[i] * kRawTick);
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// std::cout << "(" << capture.rawbuf[i] << ")";
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if (i < capture.rawlen - 1) std::cout << ", ";
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}
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std::cout << "};" << std::endl;
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}
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void addGap(uint32_t usecs) { space(usecs); }
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uint16_t mark(uint16_t usec) {
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IRtimer::add(usec);
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if (last >= OUTPUT_BUF) return 0;
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if (last & 1) // Is odd? (i.e. last call was a space())
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output[++last] = usec;
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else
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output[last] += usec;
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duty[last] = _dutycycle;
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freq[last] = _freq_unittest;
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return 0;
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}
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void space(uint32_t time) {
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IRtimer::add(time);
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if (last >= OUTPUT_BUF) return;
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if (last & 1) { // Is odd? (i.e. last call was a space())
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output[last] += time;
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} else {
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output[++last] = time;
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}
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duty[last] = _dutycycle;
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freq[last] = _freq_unittest;
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}
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};
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#ifdef UNIT_TEST
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class IRsendLowLevelTest : public IRsend {
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public:
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std::string low_level_sequence;
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explicit IRsendLowLevelTest(uint16_t x, bool i = false, bool j = true)
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: IRsend(x, i, j) {
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reset();
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}
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void reset() { low_level_sequence = ""; }
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protected:
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void _delayMicroseconds(uint32_t usec) {
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_IRtimer_unittest_now += usec;
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std::ostringstream Convert;
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Convert << usec;
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low_level_sequence += Convert.str() + "usecs";
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}
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void ledOff() { low_level_sequence += "[Off]"; }
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void ledOn() { low_level_sequence += "[On]"; }
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};
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#endif // UNIT_TEST
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#endif // TEST_IRSEND_TEST_H_
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