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Indentation fixed so that cpplint is ok

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This commit is contained in:
bsongis 2014-02-26 15:21:52 +01:00
parent 933f866e93
commit d465ee80a2
10 changed files with 125 additions and 154 deletions
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2
radio/src/audio_avr.cpp
View file

@ -227,7 +227,7 @@ void audioQueue::event(uint8_t e, uint8_t f)
break;
default:
{
const static pm_uint8_t singleSounds[] PROGMEM = {
static const pm_uint8_t singleSounds[] PROGMEM = {
70, 10, 2, PLAY_REPEAT(2)|PLAY_NOW, // INACTIVITY
BEEP_DEFAULT_FREQ, 40, 1, PLAY_NOW, // ERROR
BEEP_KEY_UP_FREQ, 10, 1, PLAY_NOW, // KEYPAD_UP

54
radio/src/eeprom_raw.cpp
View file

@ -545,52 +545,24 @@ void ee32_process()
Eeprom32_process_state = E32_READSENDING ;
}
if ( Eeprom32_process_state == E32_READSENDING )
{
#if 0
if ( Spi_complete )
{
uint32_t blank = 1 ;
x = Eeprom32_data_size + sizeof( struct t_eeprom_header ) ; // Size needing to be checked
p = (uint8_t *) &Eeprom_buffer ;
while ( x )
{
if ( *p++ != 0xFF )
{
blank = 0 ;
break ;
}
x -= 1 ;
}
// If not blank, sort erasing here
if ( blank )
{
Eeprom32_state_after_erase = E32_IDLE ; // TODO really needed?
Eeprom32_process_state = E32_WRITESTART ;
}
else
{
#endif
if (Eeprom32_process_state == E32_READSENDING) {
#ifdef SIMU
Eeprom32_process_state = E32_WRITESTART ;
Eeprom32_process_state = E32_WRITESTART ;
#else
eeAddress = Eeprom32_address ;
eeprom_write_enable() ;
p = Spi_tx_buf ;
*p = 0x20 ; // Block Erase command
*(p+1) = eeAddress >> 16 ;
*(p+2) = eeAddress >> 8 ;
*(p+3) = eeAddress ; // 3 bytes address
spi_PDC_action( p, 0, 0, 4, 0 ) ;
Eeprom32_process_state = E32_ERASESENDING ;
Eeprom32_state_after_erase = E32_WRITESTART ;
eeAddress = Eeprom32_address ;
eeprom_write_enable() ;
p = Spi_tx_buf ;
*p = 0x20 ; // Block Erase command
*(p+1) = eeAddress >> 16 ;
*(p+2) = eeAddress >> 8 ;
*(p+3) = eeAddress ; // 3 bytes address
spi_PDC_action( p, 0, 0, 4, 0 ) ;
Eeprom32_process_state = E32_ERASESENDING ;
Eeprom32_state_after_erase = E32_WRITESTART ;
#endif
// }
// }
}
if ( Eeprom32_process_state == E32_WRITESTART )
{
if (Eeprom32_process_state == E32_WRITESTART) {
uint32_t total_size ;
p = Eeprom32_source_address;
q = (uint8_t *) &Eeprom_buffer.data;

89
radio/src/eeprom_rlc.cpp
View file

@ -746,8 +746,7 @@ void RlcFile::nextRlcWriteStep()
if (m_rlc_len==0) goto close;
for (i=1; 1; i++) // !! laeuft ein byte zu weit !!
{
for (i=1; 1; i++) { // !! laeuft ein byte zu weit !!
bool cur0 = m_rlc_buf[i] == 0;
if (cur0 != run0 || cnt==0x3f || (cnt0 && cnt==0x0f) || i==m_rlc_len) {
if (run0) {
@ -782,59 +781,57 @@ void RlcFile::nextRlcWriteStep()
close:
switch(m_write_step) {
case WRITE_START_STEP:
{
blkid_t fri=0;
switch(m_write_step) {
case WRITE_START_STEP: {
blkid_t fri = 0;
if (m_currBlk && (fri=EeFsGetLink(m_currBlk))) {
// TODO reuse EeFsFree!!!
blkid_t prev_freeList = eeFs.freeList;
eeFs.freeList = fri;
if (m_currBlk && (fri = EeFsGetLink(m_currBlk))) {
// TODO reuse EeFsFree!!!
blkid_t prev_freeList = eeFs.freeList;
eeFs.freeList = fri;
#if defined(PCBTARANIS)
freeBlocks++;
freeBlocks++;
#endif
while( EeFsGetLink(fri)) {
fri = EeFsGetLink(fri);
while (EeFsGetLink(fri)) {
fri = EeFsGetLink(fri);
#if defined(PCBTARANIS)
freeBlocks++;
freeBlocks++;
#endif
}
m_write_step = WRITE_FREE_UNUSED_BLOCKS_STEP1;
EeFsSetLink(fri, prev_freeList);
return;
}
}
}
m_write_step = WRITE_FREE_UNUSED_BLOCKS_STEP1;
EeFsSetLink(fri, prev_freeList);
return;
}
}
case WRITE_FINAL_DIRENT_STEP:
{
m_currBlk = eeFs.files[FILE_TMP].startBlk;
DirEnt & f = eeFs.files[m_fileId];
eeFs.files[FILE_TMP].startBlk = f.startBlk;
eeFs.files[FILE_TMP].size = f.size;
f.startBlk = m_currBlk;
f.size = m_pos;
f.typ = eeFs.files[FILE_TMP].typ;
m_write_step = WRITE_TMP_DIRENT_STEP;
EeFsFlushDirEnt(m_fileId);
return;
}
case WRITE_FINAL_DIRENT_STEP: {
m_currBlk = eeFs.files[FILE_TMP].startBlk;
DirEnt & f = eeFs.files[m_fileId];
eeFs.files[FILE_TMP].startBlk = f.startBlk;
eeFs.files[FILE_TMP].size = f.size;
f.startBlk = m_currBlk;
f.size = m_pos;
f.typ = eeFs.files[FILE_TMP].typ;
m_write_step = WRITE_TMP_DIRENT_STEP;
EeFsFlushDirEnt(m_fileId);
return;
}
case WRITE_TMP_DIRENT_STEP:
m_write_step = 0;
EeFsFlushDirEnt(FILE_TMP);
return;
case WRITE_TMP_DIRENT_STEP:
m_write_step = 0;
EeFsFlushDirEnt(FILE_TMP);
return;
case WRITE_FREE_UNUSED_BLOCKS_STEP1:
m_write_step = WRITE_FREE_UNUSED_BLOCKS_STEP2;
EeFsSetLink(m_currBlk, 0);
return;
case WRITE_FREE_UNUSED_BLOCKS_STEP1:
m_write_step = WRITE_FREE_UNUSED_BLOCKS_STEP2;
EeFsSetLink(m_currBlk, 0);
return;
case WRITE_FREE_UNUSED_BLOCKS_STEP2:
m_write_step = WRITE_FINAL_DIRENT_STEP;
EeFsFlushFreelist();
return;
}
case WRITE_FREE_UNUSED_BLOCKS_STEP2:
m_write_step = WRITE_FINAL_DIRENT_STEP;
EeFsFlushFreelist();
return;
}
}
void RlcFile::flush()

54
radio/src/eeprom_rlc.h
View file

@ -161,10 +161,10 @@ inline uint8_t write_errno() { return s_write_err; }
class RlcFile: public EFile
{
uint8_t m_bRlc; // control byte for run length decoder
uint8_t m_zeroes;
uint8_t m_bRlc; // control byte for run length decoder
uint8_t m_zeroes;
uint8_t m_flags;
uint8_t m_flags;
#define WRITE_FIRST_LINK 0x01
#define WRITE_NEXT_LINK_1 0x02
#define WRITE_NEXT_LINK_2 0x03
@ -173,41 +173,41 @@ class RlcFile: public EFile
#define WRITE_FREE_UNUSED_BLOCKS_STEP2 0x30
#define WRITE_FINAL_DIRENT_STEP 0x40
#define WRITE_TMP_DIRENT_STEP 0x50
uint8_t m_write_step;
uint16_t m_rlc_len;
uint8_t * m_rlc_buf;
uint8_t m_cur_rlc_len;
uint8_t m_write1_byte;
uint8_t m_write_len;
uint8_t * m_write_buf;
uint8_t m_write_step;
uint16_t m_rlc_len;
uint8_t * m_rlc_buf;
uint8_t m_cur_rlc_len;
uint8_t m_write1_byte;
uint8_t m_write_len;
uint8_t * m_write_buf;
#if defined (EEPROM_PROGRESS_BAR)
uint8_t m_ratio;
uint8_t m_ratio;
#endif
public:
public:
void openRlc(uint8_t i_fileId);
void openRlc(uint8_t i_fileId);
void create(uint8_t i_fileId, uint8_t typ, uint8_t sync_write);
void create(uint8_t i_fileId, uint8_t typ, uint8_t sync_write);
/// copy contents of i_fileSrc to i_fileDst
bool copy(uint8_t i_fileDst, uint8_t i_fileSrc);
/// copy contents of i_fileSrc to i_fileDst
bool copy(uint8_t i_fileDst, uint8_t i_fileSrc);
inline bool isWriting() { return m_write_step != 0; }
void write(uint8_t *buf, uint8_t i_len);
void write1(uint8_t b);
void nextWriteStep();
void nextRlcWriteStep();
void writeRlc(uint8_t i_fileId, uint8_t typ, uint8_t *buf, uint16_t i_len, uint8_t sync_write);
inline bool isWriting() { return m_write_step != 0; }
void write(uint8_t *buf, uint8_t i_len);
void write1(uint8_t b);
void nextWriteStep();
void nextRlcWriteStep();
void writeRlc(uint8_t i_fileId, uint8_t typ, uint8_t *buf, uint16_t i_len, uint8_t sync_write);
// flush the current write operation if any
void flush();
// flush the current write operation if any
void flush();
// read from opened file and decode rlc-coded data
uint16_t readRlc(uint8_t *buf, uint16_t i_len);
// read from opened file and decode rlc-coded data
uint16_t readRlc(uint8_t *buf, uint16_t i_len);
#if defined (EEPROM_PROGRESS_BAR)
void DisplayProgressBar(uint8_t x);
void DisplayProgressBar(uint8_t x);
#endif
};

4
radio/src/myeeprom.h
View file

@ -829,9 +829,9 @@ enum AdjustGvarFunctionParam {
#if defined(CPUARM)
#if defined(PCBTARANIS)
#define LEN_CFN_NAME 8
#define LEN_CFN_NAME 8
#else
#define LEN_CFN_NAME 6
#define LEN_CFN_NAME 6
#endif
PACK(typedef struct t_CustomFnData { // Function Switches data
int8_t swtch;

24
radio/src/opentx.h
View file

@ -585,24 +585,28 @@ extern uint8_t channel_order(uint8_t x);
class Key
{
#define FILTERBITS 4
#ifdef SIMU
#define FFVAL 1
#define FFVAL 1
#else
#define FFVAL ((1<<FILTERBITS)-1)
#define FFVAL ((1<<FILTERBITS)-1)
#endif
#define KSTATE_OFF 0
#define KSTATE_RPTDELAY 95 // gruvin: delay state before key repeating starts
#define KSTATE_START 97
#define KSTATE_PAUSE 98
#define KSTATE_KILLED 99
uint8_t m_vals; // key debounce? 4 = 40ms
uint8_t m_cnt;
uint8_t m_state;
public:
void input(bool val, EnumKeys enuk);
bool state() { return m_vals > 0; }
void pauseEvents() { m_state = KSTATE_PAUSE; m_cnt = 0; }
void killEvents() { m_state = KSTATE_KILLED; }
private:
uint8_t m_vals; // key debounce? 4 = 40ms
uint8_t m_cnt;
uint8_t m_state;
public:
void input(bool val, EnumKeys enuk);
bool state() { return m_vals > 0; }
void pauseEvents() { m_state = KSTATE_PAUSE; m_cnt = 0; }
void killEvents() { m_state = KSTATE_KILLED; }
};
extern Key keys[NUM_KEYS];

7
radio/src/rtc.cpp
View file

@ -51,10 +51,7 @@ extern void rtcdriver_settime(struct gtm * t);
implementations (e.g., UNICOS 9.0 on a Cray Y-MP EL) don't shift
right in the usual way when A < 0, so SHR falls back on division if
ordinary A >> B doesn't seem to be the usual signed shift. */
#define SHR(a, b) \
(-1 >> 1 == -1 \
? (a) >> (b) \
: (a) / (1 << (b)) - ((a) % (1 << (b)) < 0))
#define SHR(a, b) (-1 >> 1 == -1 ? (a) >> (b) : (a) / (1 << (b)) - ((a) % (1 << (b)) < 0))
/* The extra casts in the following macros work around compiler bugs,
e.g., in Cray C 5.0.3.0. */
@ -487,7 +484,7 @@ __mktime_internal (struct gtm *tp,
gtime_t
gmktime (struct gtm *tp)
{
// no time zone stuff. Just do the math ;)
// no time zone stuff. Just do the math ;)
static gtime_t localtime_offset;
return __mktime_internal (tp, __localtime_r, &localtime_offset);
}

31
radio/src/simu.cpp
View file

@ -51,23 +51,24 @@ int g_snapshot_idx = 0;
class Open9xSim: public FXMainWindow
{
FXDECLARE(Open9xSim)
public:
Open9xSim(){};
Open9xSim(FXApp* a);
long onKeypress(FXObject*,FXSelector,void*);
long onTimeout(FXObject*,FXSelector,void*);
void makeSnapshot(const FXDrawable* drawable);
void doEvents();
void refreshDiplay();
private:
FXImage *bmp;
FXImageFrame *bmf;
bool firstTime;
public:
Open9xSim(){};
Open9xSim(FXApp* a);
long onKeypress(FXObject*,FXSelector,void*);
long onTimeout(FXObject*,FXSelector,void*);
void makeSnapshot(const FXDrawable* drawable);
void doEvents();
void refreshDiplay();
public:
FXSlider *sliders[8];
FXKnob *knobs[NUM_POTS];
private:
FXImage *bmp;
FXImageFrame *bmf;
bool firstTime;
public:
FXSlider *sliders[8];
FXKnob *knobs[NUM_POTS];
};
// Message Map
FXDEFMAP(Open9xSim) Open9xSimMap[]={

4
radio/src/templates.h
View file

@ -53,8 +53,8 @@
*
*/
#ifndef TEMPLATES_H
#define TEMPLATES_H
#ifndef TEMPLATES_H_
#define TEMPLATES_H_
#include <inttypes.h>

10
radio/src/translations.h
View file

@ -124,12 +124,12 @@ extern const pm_char STR_OPEN9X[];
#define OFS_VTELEMCHNS (OFS_FUNCSOUNDS + sizeof(TR_FUNCSOUNDS))
#if defined(FRSKY) || defined(CPUARM)
#if defined(CPUARM)
#define OFS_VTELEMUNIT_IMP (OFS_VTELEMCHNS + sizeof(TR_VTELEMCHNS))
#define OFS_VTELEMUNIT_NORM (OFS_VTELEMUNIT_IMP + sizeof(TR_VTELEMUNIT_IMP))
#define OFS_VALARM (OFS_VTELEMUNIT_NORM + sizeof(TR_VTELEMUNIT_NORM))
#define OFS_VTELEMUNIT_IMP (OFS_VTELEMCHNS + sizeof(TR_VTELEMCHNS))
#define OFS_VTELEMUNIT_NORM (OFS_VTELEMUNIT_IMP + sizeof(TR_VTELEMUNIT_IMP))
#define OFS_VALARM (OFS_VTELEMUNIT_NORM + sizeof(TR_VTELEMUNIT_NORM))
#else
#define OFS_VTELEMUNIT (OFS_VTELEMCHNS + sizeof(TR_VTELEMCHNS))
#define OFS_VALARM (OFS_VTELEMUNIT + sizeof(TR_VTELEMUNIT))
#define OFS_VTELEMUNIT (OFS_VTELEMCHNS + sizeof(TR_VTELEMCHNS))
#define OFS_VALARM (OFS_VTELEMUNIT + sizeof(TR_VTELEMUNIT))
#endif
#define OFS_VALARMFN (OFS_VALARM + sizeof(TR_VALARM))
#define OFS_VTELPROTO (OFS_VALARMFN + sizeof(TR_VALARMFN))