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/* Copyright 2021 Simon Arlott
*
* This program is free software : you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation , either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program . If not , see < http : //www.gnu.org/licenses/>.
*/
# include "gtest/gtest.h"
# include "debounce_test_common.h"
# include <algorithm>
# include <iomanip>
# include <sstream>
extern " C " {
# include "quantum.h"
# include "timer.h"
# include "debounce.h"
void set_time ( uint32_t t ) ;
void advance_time ( uint32_t ms ) ;
}
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void DebounceTest : : addEvents ( std : : initializer_list < DebounceTestEvent > events ) {
events_ . insert ( events_ . end ( ) , events . begin ( ) , events . end ( ) ) ;
}
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void DebounceTest : : runEvents ( ) {
/* Run the test multiple times, from 1kHz to 10kHz scan rate */
for ( extra_iterations_ = 0 ; extra_iterations_ < 10 ; extra_iterations_ + + ) {
if ( time_jumps_ ) {
/* Don't advance time smoothly, jump to the next event (some tests require this) */
auto_advance_time_ = false ;
runEventsInternal ( ) ;
} else {
/* Run the test with both smooth and irregular time; it must produce the same result */
auto_advance_time_ = true ;
runEventsInternal ( ) ;
auto_advance_time_ = false ;
runEventsInternal ( ) ;
}
}
}
void DebounceTest : : runEventsInternal ( ) {
fast_timer_t previous = 0 ;
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bool first = true ;
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/* Initialise keyboard with start time (offset to avoid testing at 0) and all keys UP */
debounce_init ( MATRIX_ROWS ) ;
set_time ( time_offset_ ) ;
std : : fill ( std : : begin ( input_matrix_ ) , std : : end ( input_matrix_ ) , 0 ) ;
std : : fill ( std : : begin ( output_matrix_ ) , std : : end ( output_matrix_ ) , 0 ) ;
for ( auto & event : events_ ) {
if ( ! auto_advance_time_ ) {
/* Jump to the next event */
set_time ( time_offset_ + event . time_ ) ;
} else if ( ! first & & event . time_ = = previous + 1 ) {
/* This event immediately follows the previous one, don't make extra debounce() calls */
advance_time ( 1 ) ;
} else {
/* Fast forward to the time for this event, calling debounce() with no changes */
ASSERT_LT ( ( time_offset_ + event . time_ ) - timer_read_fast ( ) , 60000 ) < < " Test tries to advance more than 1 minute of time " ;
while ( timer_read_fast ( ) ! = time_offset_ + event . time_ ) {
runDebounce ( false ) ;
checkCookedMatrix ( false , " debounce() modified cooked matrix " ) ;
advance_time ( 1 ) ;
}
}
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first = false ;
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previous = event . time_ ;
/* Prepare input matrix */
for ( auto & input : event . inputs_ ) {
matrixUpdate ( input_matrix_ , " input " , input ) ;
}
/* Call debounce */
runDebounce ( ! event . inputs_ . empty ( ) ) ;
/* Prepare output matrix */
for ( auto & output : event . outputs_ ) {
matrixUpdate ( output_matrix_ , " output " , output ) ;
}
/* Check output matrix has expected change events */
for ( auto & output : event . outputs_ ) {
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EXPECT_EQ ( ! ! ( cooked_matrix_ [ output . row_ ] & ( 1U < < output . col_ ) ) , directionValue ( output . direction_ ) ) < < " Missing event at " < < strTime ( ) < < " expected key " < < output . row_ < < " , " < < output . col_ < < " " < < directionLabel ( output . direction_ ) < < " \n input_matrix: changed= " < < ! event . inputs_ . empty ( ) < < " \n " < < strMatrix ( input_matrix_ ) < < " \n expected_matrix: \n " < < strMatrix ( output_matrix_ ) < < " \n actual_matrix: \n " < < strMatrix ( cooked_matrix_ ) ;
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}
/* Check output matrix has no other changes */
checkCookedMatrix ( ! event . inputs_ . empty ( ) , " debounce() cooked matrix does not match expected output matrix " ) ;
/* Perform some extra iterations of the matrix scan with no changes */
for ( int i = 0 ; i < extra_iterations_ ; i + + ) {
runDebounce ( false ) ;
checkCookedMatrix ( false , " debounce() modified cooked matrix " ) ;
}
}
/* Check that no further changes happen for 1 minute */
for ( int i = 0 ; i < 60000 ; i + + ) {
runDebounce ( false ) ;
checkCookedMatrix ( false , " debounce() modified cooked matrix " ) ;
advance_time ( 1 ) ;
}
debounce_free ( ) ;
}
void DebounceTest : : runDebounce ( bool changed ) {
std : : copy ( std : : begin ( input_matrix_ ) , std : : end ( input_matrix_ ) , std : : begin ( raw_matrix_ ) ) ;
std : : copy ( std : : begin ( output_matrix_ ) , std : : end ( output_matrix_ ) , std : : begin ( cooked_matrix_ ) ) ;
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bool cooked_changed = debounce ( raw_matrix_ , cooked_matrix_ , MATRIX_ROWS , changed ) ;
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if ( ! std : : equal ( std : : begin ( input_matrix_ ) , std : : end ( input_matrix_ ) , std : : begin ( raw_matrix_ ) ) ) {
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FAIL ( ) < < " Fatal error: debounce() modified raw matrix at " < < strTime ( ) < < " \n input_matrix: changed= " < < changed < < " \n " < < strMatrix ( input_matrix_ ) < < " \n raw_matrix: \n " < < strMatrix ( raw_matrix_ ) ;
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}
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if ( std : : equal ( std : : begin ( output_matrix_ ) , std : : end ( output_matrix_ ) , std : : begin ( cooked_matrix_ ) ) & & cooked_changed ) {
FAIL ( ) < < " Fatal error: debounce() did detect a wrong cooked matrix change at " < < strTime ( ) < < " \n output_matrix: cooked_changed= " < < cooked_changed < < " \n " < < strMatrix ( output_matrix_ ) < < " \n cooked_matrix: \n " < < strMatrix ( cooked_matrix_ ) ;
}
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}
void DebounceTest : : checkCookedMatrix ( bool changed , const std : : string & error_message ) {
if ( ! std : : equal ( std : : begin ( output_matrix_ ) , std : : end ( output_matrix_ ) , std : : begin ( cooked_matrix_ ) ) ) {
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FAIL ( ) < < " Unexpected event: " < < error_message < < " at " < < strTime ( ) < < " \n input_matrix: changed= " < < changed < < " \n " < < strMatrix ( input_matrix_ ) < < " \n expected_matrix: \n " < < strMatrix ( output_matrix_ ) < < " \n actual_matrix: \n " < < strMatrix ( cooked_matrix_ ) ;
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}
}
std : : string DebounceTest : : strTime ( ) {
std : : stringstream text ;
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text < < " time " < < ( timer_read_fast ( ) - time_offset_ ) < < " (extra_iterations= " < < extra_iterations_ < < " , auto_advance_time= " < < auto_advance_time_ < < " ) " ;
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return text . str ( ) ;
}
std : : string DebounceTest : : strMatrix ( matrix_row_t matrix [ ] ) {
std : : stringstream text ;
text < < " \t " < < std : : setw ( 3 ) < < " " ;
for ( int col = 0 ; col < MATRIX_COLS ; col + + ) {
text < < " " < < std : : setw ( 2 ) < < col ;
}
text < < " \n " ;
for ( int row = 0 ; row < MATRIX_ROWS ; row + + ) {
text < < " \t " < < std : : setw ( 2 ) < < row < < " : " ;
for ( int col = 0 ; col < MATRIX_COLS ; col + + ) {
text < < ( ( matrix [ row ] & ( 1U < < col ) ) ? " XX " : " __ " ) ;
}
text < < " \n " ;
}
return text . str ( ) ;
}
bool DebounceTest : : directionValue ( Direction direction ) {
switch ( direction ) {
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case DOWN :
return true ;
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case UP :
return false ;
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}
}
std : : string DebounceTest : : directionLabel ( Direction direction ) {
switch ( direction ) {
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case DOWN :
return " DOWN " ;
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case UP :
return " UP " ;
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}
}
/* Modify a matrix and verify that events always specify a change */
void DebounceTest : : matrixUpdate ( matrix_row_t matrix [ ] , const std : : string & name , const MatrixTestEvent & event ) {
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ASSERT_NE ( ! ! ( matrix [ event . row_ ] & ( 1U < < event . col_ ) ) , directionValue ( event . direction_ ) ) < < " Test " < < name < < " at " < < strTime ( ) < < " sets key " < < event . row_ < < " , " < < event . col_ < < " " < < directionLabel ( event . direction_ ) < < " but it is already " < < directionLabel ( event . direction_ ) < < " \n " < < name < < " _matrix: \n " < < strMatrix ( matrix ) ;
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switch ( event . direction_ ) {
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case DOWN :
matrix [ event . row_ ] | = ( 1U < < event . col_ ) ;
break ;
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case UP :
matrix [ event . row_ ] & = ~ ( 1U < < event . col_ ) ;
break ;
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}
}
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DebounceTestEvent : : DebounceTestEvent ( fast_timer_t time , std : : initializer_list < MatrixTestEvent > inputs , std : : initializer_list < MatrixTestEvent > outputs ) : time_ ( time ) , inputs_ ( inputs ) , outputs_ ( outputs ) { }
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MatrixTestEvent : : MatrixTestEvent ( int row , int col , Direction direction ) : row_ ( row ) , col_ ( col ) , direction_ ( direction ) { }