Got rid of that old 'params' mess on console logs. Not needed anymore since wxwidgets has nicer built in formatting options (never liked it anyway)

git-svn-id: http://pcsx2.googlecode.com/svn/trunk@1782 96395faa-99c1-11dd-bbfe-3dabce05a288
This commit is contained in:
Jake.Stine 2009-09-08 05:37:40 +00:00
parent 2c210e3b4e
commit 3b10771c36
87 changed files with 423 additions and 576 deletions

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@ -58,52 +58,31 @@ namespace Console
// Writes a newline to the console.
extern bool Newline();
// Writes an unformatted string of text to the console (fast!)
// No newline is appended.
extern bool __fastcall Write( const char* text );
// Writes an unformatted string of text to the console (fast!)
// A newline is automatically appended, and the console color reset to default
// after the log is written.
extern bool __fastcall Write( Colors color, const char* text );
// Writes an unformatted string of text to the console (fast!)
// A newline is automatically appended.
extern bool __fastcall WriteLn( const char* text );
// Writes an unformatted string of text to the console (fast!)
// A newline is automatically appended, and the console color reset to default
// after the log is written.
extern bool __fastcall WriteLn( Colors color, const char* text );
// Writes a line of colored text to the console, with automatic newline appendage.
// The console color is reset to default when the operation is complete.
extern bool WriteLn( Colors color, const char* fmt, VARG_PARAM dummy, ... );
extern bool WriteLn( Colors color, const char* fmt, ... );
// Writes a formatted message to the console, with appended newline.
extern bool WriteLn( const char* fmt, VARG_PARAM dummy, ... );
extern bool WriteLn( const char* fmt, ... );
// Writes a line of colored text to the console (no newline).
// The console color is reset to default when the operation is complete.
extern bool Write( Colors color, const char* fmt, VARG_PARAM dummy, ... );
extern bool Write( Colors color, const char* fmt, ... );
// Writes a formatted message to the console (no newline)
extern bool Write( const char* fmt, VARG_PARAM dummy, ... );
extern bool Write( const char* fmt, ... );
// Displays a message in the console with red emphasis.
// Newline is automatically appended.
extern bool Error( const char* fmt, VARG_PARAM dummy, ... );
extern bool __fastcall Error( const char* text );
extern bool Error( const char* fmt, ... );
// Displays a message in the console with yellow emphasis.
// Newline is automatically appended.
extern bool Notice( const char* fmt, VARG_PARAM dummy, ... );
extern bool __fastcall Notice( const char* text );
extern bool Notice( const char* fmt, ... );
// Displays a message in the console with yellow emphasis.
// Newline is automatically appended.
extern bool Status( const char* fmt, VARG_PARAM dummy, ... );
extern bool __fastcall Status( const char* text );
extern bool Status( const char* fmt, ... );
extern bool __fastcall Write( const wxString& text );

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@ -44,38 +44,6 @@ extern bool TryParse( wxSize& dest, const wxString& src, const wxSize& defval=wx
extern bool TryParse( wxRect& dest, const wxString& src, const wxRect& defval=wxDefaultRect, const wxString& separators=L",");
//////////////////////////////////////////////////////////////////////////////////////////
// dummy structure used to type-guard the dummy parameter that's been inserted to
// allow us to use the va_list feature on references.
struct _VARG_PARAM
{
// just some value to make the struct length 32bits instead of 8 bits, so that the
// compiler generates somewhat more efficient code.
uint someval;
};
#ifdef PCSX2_DEBUG
#define params va_arg_dummy,
#define varg_assert() // jASSUME( dummy == &va_arg_dummy );
// typedef the Va-Arg value to be a value type in debug builds. The value
// type requires a little more overhead in terms of code generation, but is always
// type-safe. The compiler will generate errors for any forgotten params value.
typedef _VARG_PARAM VARG_PARAM;
#else
#define params NULL, // using null is faster / more compact!
#define varg_assert() jASSUME( dummy == NULL );
// typedef the Va-Arg value to be a pointer in release builds. Pointers
// generate more compact code by a small margin, but aren't entirely type safe since
// the compiler won't generate errors if you pass NULL or other values.
typedef _VARG_PARAM const * VARG_PARAM;
#endif
extern const _VARG_PARAM va_arg_dummy;
//////////////////////////////////////////////////////////////////////////////////////////
// Custom internal sprintf functions, which are ASCII only (even in UNICODE builds)
//

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@ -290,7 +290,7 @@ namespace x86Emitter
// Don't ask. --arcum42
#if !defined(__LINUX__) || !defined(DEBUG)
Console::Error( "Emitter Error: Invalid short jump displacement = 0x%x", params (int)displacement );
Console::Error( "Emitter Error: Invalid short jump displacement = 0x%x", (int)displacement );
#endif
}
BasePtr[-1] = (s8)displacement;

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@ -22,24 +22,11 @@
using namespace Threading;
using namespace std;
const _VARG_PARAM va_arg_dummy = { 0 };
namespace Console
{
MutexLock m_writelock;
std::string m_format_buffer;
// ------------------------------------------------------------------------
bool __fastcall Write( Colors color, const char* fmt )
{
SetColor( color );
Write( fmt );
ClearColor();
return false;
}
// ------------------------------------------------------------------------
bool __fastcall Write( Colors color, const wxString& fmt )
{
SetColor( color );
@ -49,15 +36,6 @@ namespace Console
return false;
}
bool __fastcall WriteLn( Colors color, const char* fmt )
{
SetColor( color );
WriteLn( fmt );
ClearColor();
return false;
}
bool __fastcall WriteLn( Colors color, const wxString& fmt )
{
SetColor( color );
@ -71,7 +49,7 @@ namespace Console
{
ScopedLock locker( m_writelock );
vssprintf( m_format_buffer, fmt, args );
Write( m_format_buffer.c_str() );
Write( wxString::FromUTF8( m_format_buffer.c_str() ) );
}
__forceinline void __fastcall _WriteLn( const char* fmt, va_list args )
@ -79,7 +57,7 @@ namespace Console
ScopedLock locker( m_writelock );
vssprintf( m_format_buffer, fmt, args );
m_format_buffer += "\n";
Write( m_format_buffer.c_str() );
Write( wxString::FromUTF8( m_format_buffer.c_str() ) );
}
__forceinline void __fastcall _WriteLn( Colors color, const char* fmt, va_list args )
@ -90,24 +68,20 @@ namespace Console
}
// ------------------------------------------------------------------------
bool Write( const char* fmt, VARG_PARAM dummy, ... )
bool Write( const char* fmt, ... )
{
varg_assert();
va_list args;
va_start(args,dummy);
va_start(args,fmt);
_Write( fmt, args );
va_end(args);
return false;
}
bool Write( Colors color, const char* fmt, VARG_PARAM dummy, ... )
bool Write( Colors color, const char* fmt, ... )
{
varg_assert();
va_list args;
va_start(args,dummy);
va_start(args,fmt);
SetColor( color );
_Write( fmt, args );
ClearColor();
@ -117,84 +91,53 @@ namespace Console
}
// ------------------------------------------------------------------------
bool WriteLn( const char* fmt, VARG_PARAM dummy, ... )
bool WriteLn( const char* fmt, ... )
{
varg_assert();
va_list args;
va_start(args,dummy);
va_start(args,fmt);
_WriteLn( fmt, args );
va_end(args);
return false;
}
// ------------------------------------------------------------------------
bool WriteLn( Colors color, const char* fmt, VARG_PARAM dummy, ... )
bool WriteLn( Colors color, const char* fmt, ... )
{
varg_assert();
va_list args;
va_start(args,dummy);
va_start(args,fmt);
_WriteLn( color, fmt, args );
va_end(args);
return false;
}
// ------------------------------------------------------------------------
bool Error( const char* fmt, VARG_PARAM dummy, ... )
bool Error( const char* fmt, ... )
{
varg_assert();
va_list args;
va_start(args,dummy);
va_start(args,fmt);
_WriteLn( Color_Red, fmt, args );
va_end(args);
return false;
}
// ------------------------------------------------------------------------
bool Notice( const char* fmt, VARG_PARAM dummy, ... )
bool Notice( const char* fmt, ... )
{
varg_assert();
va_list list;
va_start(list,dummy);
va_start(list,fmt);
_WriteLn( Color_Yellow, fmt, list );
va_end(list);
return false;
}
// ------------------------------------------------------------------------
bool Status( const char* fmt, VARG_PARAM dummy, ... )
bool Status( const char* fmt, ... )
{
varg_assert();
va_list list;
va_start(list,dummy);
va_start(list,fmt);
_WriteLn( Color_Green, fmt, list );
va_end(list);
return false;
}
// ------------------------------------------------------------------------
bool __fastcall Error( const char* fmt )
{
WriteLn( Color_Red, fmt );
return false;
}
bool __fastcall Notice( const char* fmt )
{
WriteLn( Color_Yellow, fmt );
return false;
}
bool __fastcall Status( const char* fmt )
{
WriteLn( Color_Green, fmt );
return false;
}
// ------------------------------------------------------------------------
bool __fastcall Error( const wxString& src )
{

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@ -784,7 +784,7 @@ void ssappendf( std::string& dest, const char* format, ...)
// the format string from the parameters used to fill the string's tokens. It looks
// like this in practice:
//
// ssprintf( dest, "Yo Joe, %d. In the Hizzou %s.", params intval, strval );
// ssprintf( dest, "Yo Joe, %d. In the Hizzou %s.", intval, strval );
//
// In addition to all standard printf formatting tokens, ssprintf also supports a new token
// for std::string parameters as %hs (passed by reference/pointer). I opted for %hs (using 'h'
@ -792,7 +792,7 @@ void ssappendf( std::string& dest, const char* format, ...)
// that these are passed by pointer so you *must* use the & operator most of the time.
// Example:
//
// ssprintf( dest, "Yo Joe, %hs.", params &strval );
// ssprintf( dest, "Yo Joe, %hs.", &strval );
//
// This can be a cavet of sorts since forgetting to use the & will always compile but
// will cause undefined behavior and odd crashes (much like how the same thing happens
@ -806,12 +806,10 @@ void ssappendf( std::string& dest, const char* format, ...)
// anything, and none of the other 64-bit qualifiers aren't really standard anyway.
// Example:
//
// ssprintf( dest, "Yo Joe, %Ld, %Lx.", params int64, hex64 );
// ssprintf( dest, "Yo Joe, %Ld, %Lx.", int64, hex64 );
//
void ssprintf(std::string& str, const char* fmt, ...)
{
//varg_assert();
va_list args;
va_start(args, fmt);
vssprintf(str, fmt, args);
@ -821,8 +819,6 @@ void ssprintf(std::string& str, const char* fmt, ...)
// See ssprintf for usage details and differences from sprintf formatting.
std::string fmt_string( const char* fmt, ... )
{
//varg_assert();
std::string retval;
va_list args;
va_start( args, fmt );
@ -834,8 +830,6 @@ std::string fmt_string( const char* fmt, ... )
std::string vfmt_string( const char* fmt, va_list args )
{
//varg_assert();
std::string retval;
vssprintf( retval, fmt, args );
return retval;

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@ -105,7 +105,7 @@ static void SetSingleAffinity()
"\tSystem Affinity : 0x%08x"
"\tProcess Affinity: 0x%08x"
"\tAttempted Thread Affinity CPU: i",
params availProcCpus, availSysCpus, i
availProcCpus, availSysCpus, i
);
}
#endif
@ -357,7 +357,7 @@ void cpudetectInit()
if( sse3_result != !!x86caps.hasStreamingSIMD3Extensions )
{
Console::Notice( "SSE3 Detection Inconsistency: cpuid=%s, test_result=%s",
params bool_to_char( !!x86caps.hasStreamingSIMD3Extensions ), bool_to_char( sse3_result ) );
bool_to_char( !!x86caps.hasStreamingSIMD3Extensions ), bool_to_char( sse3_result ) );
x86caps.hasStreamingSIMD3Extensions = sse3_result;
}
@ -365,7 +365,7 @@ void cpudetectInit()
if( ssse3_result != !!x86caps.hasSupplementalStreamingSIMD3Extensions )
{
Console::Notice( "SSSE3 Detection Inconsistency: cpuid=%s, test_result=%s",
params bool_to_char( !!x86caps.hasSupplementalStreamingSIMD3Extensions ), bool_to_char( ssse3_result ) );
bool_to_char( !!x86caps.hasSupplementalStreamingSIMD3Extensions ), bool_to_char( ssse3_result ) );
x86caps.hasSupplementalStreamingSIMD3Extensions = ssse3_result;
}
@ -373,7 +373,7 @@ void cpudetectInit()
if( sse41_result != !!x86caps.hasStreamingSIMD4Extensions )
{
Console::Notice( "SSE4 Detection Inconsistency: cpuid=%s, test_result=%s",
params bool_to_char( !!x86caps.hasStreamingSIMD4Extensions ), bool_to_char( sse41_result ) );
bool_to_char( !!x86caps.hasStreamingSIMD4Extensions ), bool_to_char( sse41_result ) );
x86caps.hasStreamingSIMD4Extensions = sse41_result;
}

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@ -102,7 +102,7 @@ FILE *_cdvdOpenMechaVer() {
{
Console::Error( "\tMEC File Creation failed!" );
throw Exception::CreateStream( file );
//Msgbox::Alert( "_cdvdOpenMechaVer: Error creating %s", params file);
//Msgbox::Alert( "_cdvdOpenMechaVer: Error creating %s", file);
//exit(1);
}
@ -152,7 +152,7 @@ FILE *_cdvdOpenNVM() {
if (fd == NULL)
{
throw Exception::CreateStream( file );
//Msgbox::Alert("_cdvdOpenNVM: Error creating %s", params file);
//Msgbox::Alert("_cdvdOpenNVM: Error creating %s", file);
//exit(1);
}
for (i=0; i<1024; i++) fputc(0, fd);
@ -338,7 +338,7 @@ void cdvdReadKey(u8 arg0, u16 arg1, u32 arg2, u8* key) {
const wxCharBuffer crap( fname.ToAscii() );
const char* str = crap.data();
sprintf(exeName, "%c%c%c%c%c%c%c%c%c%c%c",str[8],str[9],str[10],str[11],str[12],str[13],str[14],str[15],str[16],str[17],str[18]);
DevCon::Notice("exeName = %s", params &str[8]);
DevCon::Notice("exeName = %s", &str[8]);
// convert the number characters to a real 32bit number
numbers = ((((exeName[5] - '0'))*10000) +
@ -393,7 +393,7 @@ void cdvdReadKey(u8 arg0, u16 arg1, u32 arg2, u8* key) {
key[15] = 0x01;
}
Console::WriteLn( "CDVD.KEY = %02X,%02X,%02X,%02X,%02X,%02X,%02X", params
Console::WriteLn( "CDVD.KEY = %02X,%02X,%02X,%02X,%02X,%02X,%02X",
cdvd.Key[0],cdvd.Key[1],cdvd.Key[2],cdvd.Key[3],cdvd.Key[4],cdvd.Key[14],cdvd.Key[15] );
// Now's a good time to reload the ELF info...
@ -648,7 +648,7 @@ int cdvdReadSector() {
// be more correct. (air)
psxCpu->Clear( HW_DMA3_MADR, cdvd.BlockSize/4 );
// Console::WriteLn("sector %x;%x;%x", params PSXMu8(madr+0), PSXMu8(madr+1), PSXMu8(madr+2));
// Console::WriteLn("sector %x;%x;%x", PSXMu8(madr+0), PSXMu8(madr+1), PSXMu8(madr+2));
HW_DMA3_BCR_H16 -= (cdvd.BlockSize / (HW_DMA3_BCR_L16*4));
HW_DMA3_MADR += cdvd.BlockSize;
@ -696,7 +696,7 @@ __forceinline void cdvdActionInterrupt()
// inlined due to being referenced in only one place.
__forceinline void cdvdReadInterrupt()
{
//Console::WriteLn("cdvdReadInterrupt %x %x %x %x %x", params cpuRegs.interrupt, cdvd.Readed, cdvd.Reading, cdvd.nSectors, (HW_DMA3_BCR_H16 * HW_DMA3_BCR_L16) *4);
//Console::WriteLn("cdvdReadInterrupt %x %x %x %x %x", cpuRegs.interrupt, cdvd.Readed, cdvd.Reading, cdvd.nSectors, (HW_DMA3_BCR_H16 * HW_DMA3_BCR_L16) *4);
cdvd.Ready = CDVD_NOTREADY;
if (!cdvd.Readed)
@ -743,7 +743,7 @@ __forceinline void cdvdReadInterrupt()
CDVDREAD_INT(cdvd.ReadTime);
}
else
Console::Error("CDVD READ ERROR, sector = 0x%08x", params cdvd.Sector);
Console::Error("CDVD READ ERROR, sector = 0x%08x", cdvd.Sector);
return;
}
@ -1037,14 +1037,14 @@ u8 cdvdRead(u8 key)
case 0x3A: // DEC_SET
CDR_LOG("cdvdRead3A(DecSet) %x", cdvd.decSet);
Console::WriteLn("DecSet Read: %02X", params cdvd.decSet);
Console::WriteLn("DecSet Read: %02X", cdvd.decSet);
return cdvd.decSet;
break;
default:
// note: notify the console since this is a potentially serious emulation problem:
PSXHW_LOG("*Unknown 8bit read at address 0x1f4020%x", key);
Console::Error( "IOP Unknown 8bit read from addr 0x1f4020%x", params key );
Console::Error( "IOP Unknown 8bit read from addr 0x1f4020%x", key );
return 0;
break;
}
@ -1068,14 +1068,14 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
// Seek to sector zero. The cdvdStartSeek function will simulate
// spinup times if needed.
DevCon::Notice( "CdStandby : %d", params rt );
DevCon::Notice( "CdStandby : %d", rt );
cdvd.Action = cdvdAction_Standby;
cdvd.ReadTime = cdvdBlockReadTime( MODE_DVDROM );
CDVD_INT( cdvdStartSeek( 0, MODE_DVDROM ) );
break;
case N_CD_STOP: // CdStop
DevCon::Notice( "CdStop : %d", params rt );
DevCon::Notice( "CdStop : %d", rt );
cdvd.Action = cdvdAction_Stop;
CDVD_INT( PSXCLK / 6 ); // 166ms delay?
break;
@ -1110,7 +1110,7 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
if( EmuConfig.CdvdVerboseReads )
Console::WriteLn("CdRead: Reading Sector %d(%d Blocks of Size %d) at Speed=%dx",
params cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.ReadTime = cdvdBlockReadTime( MODE_CDROM );
CDVDREAD_INT( cdvdStartSeek( cdvd.SeekToSector,MODE_CDROM ) );
@ -1158,7 +1158,7 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
if( EmuConfig.CdvdVerboseReads )
Console::WriteLn("CdAudioRead: Reading Sector %d(%d Blocks of Size %d) at Speed=%dx",
params cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.ReadTime = cdvdBlockReadTime( MODE_CDROM );
CDVDREAD_INT( cdvdStartSeek( cdvd.SeekToSector, MODE_CDROM ) );
@ -1194,7 +1194,7 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
if( EmuConfig.CdvdVerboseReads )
Console::WriteLn("DvdRead: Reading Sector %d(%d Blocks of Size %d) at Speed=%dx",
params cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.Sector, cdvd.nSectors,cdvd.BlockSize,cdvd.Speed);
cdvd.ReadTime = cdvdBlockReadTime( MODE_DVDROM );
CDVDREAD_INT( cdvdStartSeek( cdvd.SeekToSector, MODE_DVDROM ) );
@ -1215,7 +1215,7 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
//the code below handles only CdGetToc!
//if(cdvd.Param[0]==0x01)
//{
DevCon::WriteLn("CDGetToc Param[0]=%d, Param[1]=%d", params cdvd.Param[0],cdvd.Param[1]);
DevCon::WriteLn("CDGetToc Param[0]=%d, Param[1]=%d", cdvd.Param[0],cdvd.Param[1]);
//}
cdvdGetToc( iopPhysMem( HW_DMA3_MADR ) );
cdvdSetIrq( (1<<Irq_CommandComplete) ); //| (1<<Irq_DataReady) );
@ -1228,7 +1228,7 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
u8 arg0 = cdvd.Param[0];
u16 arg1 = cdvd.Param[1] | (cdvd.Param[2]<<8);
u32 arg2 = cdvd.Param[3] | (cdvd.Param[4]<<8) | (cdvd.Param[5]<<16) | (cdvd.Param[6]<<24);
DevCon::WriteLn("cdvdReadKey(%d, %d, %d)", params arg0, arg1, arg2);
DevCon::WriteLn("cdvdReadKey(%d, %d, %d)", arg0, arg1, arg2);
cdvdReadKey(arg0, arg1, arg2, cdvd.Key);
cdvd.KeyXor = 0x00;
cdvdSetIrq();
@ -1236,12 +1236,12 @@ static void cdvdWrite04(u8 rt) { // NCOMMAND
break;
case N_CD_CHG_SPDL_CTRL: // CdChgSpdlCtrl
Console::Notice("sceCdChgSpdlCtrl(%d)", params cdvd.Param[0]);
Console::Notice("sceCdChgSpdlCtrl(%d)", cdvd.Param[0]);
cdvdSetIrq();
break;
default:
Console::Notice("NCMD Unknown %x", params rt);
Console::Notice("NCMD Unknown %x", rt);
cdvdSetIrq();
break;
}
@ -1270,7 +1270,7 @@ static __forceinline void cdvdWrite07(u8 rt) // BREAK
// If we're already in a Ready state or already Breaking, then do nothing:
if ((cdvd.Ready != CDVD_NOTREADY) || (cdvd.Action == cdvdAction_Break)) return;
DbgCon::Notice("*PCSX2*: CDVD BREAK %x", params rt);
DbgCon::Notice("*PCSX2*: CDVD BREAK %x", rt);
// Aborts any one of several CD commands:
// Pause, Seek, Read, Status, Standby, and Stop
@ -1298,7 +1298,7 @@ static __forceinline void cdvdWrite0A(u8 rt) { // STATUS
static __forceinline void cdvdWrite0F(u8 rt) { // TYPE
CDR_LOG("cdvdWrite0F(Type) %x", rt);
DevCon::WriteLn("*PCSX2*: CDVD TYPE %x", params rt);
DevCon::WriteLn("*PCSX2*: CDVD TYPE %x", rt);
}
static __forceinline void cdvdWrite14(u8 rt) { // PS1 MODE??
@ -1307,7 +1307,7 @@ static __forceinline void cdvdWrite14(u8 rt) { // PS1 MODE??
if (rt == 0xFE)
Console::Notice("*PCSX2*: go PS1 mode DISC SPEED = FAST");
else
Console::Notice("*PCSX2*: go PS1 mode DISC SPEED = %dX", params rt);
Console::Notice("*PCSX2*: go PS1 mode DISC SPEED = %dX", rt);
psxReset();
psxHu32(0x1f801450) = 0x8;
@ -1374,7 +1374,7 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
default:
SetResultSize(1);
cdvd.Result[0] = 0x80;
Console::WriteLn("*Unknown Mecacon Command param[0]=%02X", params cdvd.Param[0]);
Console::WriteLn("*Unknown Mecacon Command param[0]=%02X", cdvd.Param[0]);
break;
}
break;
@ -1403,9 +1403,9 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
if(cdvd.Result[3] <= 7) cdvd.Result[5] += 1;
cdvd.Result[6] = itob(cdvd.RTC.month)+0x80; //Month
cdvd.Result[7] = itob(cdvd.RTC.year); //Year
/*Console::WriteLn("RTC Read Sec %x Min %x Hr %x Day %x Month %x Year %x", params cdvd.Result[1], cdvd.Result[2],
/*Console::WriteLn("RTC Read Sec %x Min %x Hr %x Day %x Month %x Year %x", cdvd.Result[1], cdvd.Result[2],
cdvd.Result[3], cdvd.Result[5], cdvd.Result[6], cdvd.Result[7]);
Console::WriteLn("RTC Read Real Sec %d Min %d Hr %d Day %d Month %d Year %d", params cdvd.RTC.second, cdvd.RTC.minute,
Console::WriteLn("RTC Read Real Sec %d Min %d Hr %d Day %d Month %d Year %d", cdvd.RTC.second, cdvd.RTC.minute,
cdvd.RTC.hour, cdvd.RTC.day, cdvd.RTC.month, cdvd.RTC.year);*/
break;
@ -1421,9 +1421,9 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
if(cdvd.Param[cdvd.ParamP-5] <= 7) cdvd.RTC.day -= 1;
cdvd.RTC.month = btoi(cdvd.Param[cdvd.ParamP-2]-0x80);
cdvd.RTC.year = btoi(cdvd.Param[cdvd.ParamP-1]);
/*Console::WriteLn("RTC write incomming Sec %x Min %x Hr %x Day %x Month %x Year %x", params cdvd.Param[cdvd.ParamP-7], cdvd.Param[cdvd.ParamP-6],
/*Console::WriteLn("RTC write incomming Sec %x Min %x Hr %x Day %x Month %x Year %x", cdvd.Param[cdvd.ParamP-7], cdvd.Param[cdvd.ParamP-6],
cdvd.Param[cdvd.ParamP-5], cdvd.Param[cdvd.ParamP-3], cdvd.Param[cdvd.ParamP-2], cdvd.Param[cdvd.ParamP-1]);
Console::WriteLn("RTC Write Sec %d Min %d Hr %d Day %d Month %d Year %d", params cdvd.RTC.second, cdvd.RTC.minute,
Console::WriteLn("RTC Write Sec %d Min %d Hr %d Day %d Month %d Year %d", cdvd.RTC.second, cdvd.RTC.minute,
cdvd.RTC.hour, cdvd.RTC.day, cdvd.RTC.month, cdvd.RTC.year);*/
//memcpy_fast((u8*)&cdvd.RTC, cdvd.Param, 7);
break;
@ -1625,7 +1625,7 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
cdvdGetMechaVer(&cdvd.Result[1]);
cdvd.Result[0] = cdvdReadRegionParams(&cdvd.Result[3]);//size==8
Console::WriteLn("REGION PARAMS = %s %s", params mg_zones[cdvd.Result[1]], &cdvd.Result[3]);
Console::WriteLn("REGION PARAMS = %s %s", mg_zones[cdvd.Result[1]], &cdvd.Result[3]);
cdvd.Result[1] = 1 << cdvd.Result[1]; //encryption zone; see offset 0x1C in encrypted headers
//////////////////////////////////////////
cdvd.Result[2] = 0; //??
@ -1793,11 +1793,11 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
}
Console::Write("[MG] ELF_size=0x%X Hdr_size=0x%X unk=0x%X flags=0x%X count=%d zones=",
params *(u32*)&cdvd.mg_buffer[0x10], *(u16*)&cdvd.mg_buffer[0x14], *(u16*)&cdvd.mg_buffer[0x16],
*(u32*)&cdvd.mg_buffer[0x10], *(u16*)&cdvd.mg_buffer[0x14], *(u16*)&cdvd.mg_buffer[0x16],
*(u16*)&cdvd.mg_buffer[0x18], *(u16*)&cdvd.mg_buffer[0x1A]);
for (i=0; i<8; i++)
{
if (cdvd.mg_buffer[0x1C] & (1<<i)) Console::Write("%s ", params mg_zones[i]);
if (cdvd.mg_buffer[0x1C] & (1<<i)) Console::Write("%s ", mg_zones[i]);
}
Console::Newline();
@ -1829,7 +1829,7 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
SetResultSize(1);//in:5
cdvd.mg_size = 0;
cdvd.mg_datatype = 1;//header data
Console::WriteLn("[MG] hcode=%d cnum=%d a2=%d length=0x%X", params
Console::WriteLn("[MG] hcode=%d cnum=%d a2=%d length=0x%X",
cdvd.Param[0], cdvd.Param[3], cdvd.Param[4], cdvd.mg_maxsize = cdvd.Param[1] | (((int)cdvd.Param[2])<<8));
cdvd.Result[0] = 0; // 0 complete ; 1 busy ; 0x80 error
@ -1843,7 +1843,7 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
cdvd.mg_maxsize = 0; // don't allow any write
cdvd.mg_size = 8+16*cdvd.mg_buffer[4];//new offset, i just moved the data
Console::WriteLn("[MG] BIT count=%d", params cdvd.mg_buffer[4]);
Console::WriteLn("[MG] BIT count=%d", cdvd.mg_buffer[4]);
cdvd.Result[0] = (cdvd.mg_datatype == 1) ? 0 : 0x80; // 0 complete ; 1 busy ; 0x80 error
cdvd.Result[1] = (cdvd.mg_size >> 0) & 0xFF;
@ -1908,11 +1908,11 @@ static void cdvdWrite16(u8 rt) // SCOMMAND
// fake a 'correct' command
SetResultSize(1); //in:0
cdvd.Result[0] = 0; // 0 complete ; 1 busy ; 0x80 error
Console::WriteLn("SCMD Unknown %x", params rt);
Console::WriteLn("SCMD Unknown %x", rt);
break;
} // end switch
//Console::WriteLn("SCMD - 0x%x\n", params rt);
//Console::WriteLn("SCMD - 0x%x\n", rt);
cdvd.ParamP = 0;
cdvd.ParamC = 0;
}
@ -1934,7 +1934,7 @@ static __forceinline void cdvdWrite18(u8 rt) { // SDATAOUT
static __forceinline void cdvdWrite3A(u8 rt) { // DEC-SET
CDR_LOG("cdvdWrite3A(DecSet) %x", rt);
cdvd.decSet = rt;
Console::WriteLn("DecSet Write: %02X", params cdvd.decSet);
Console::WriteLn("DecSet Write: %02X", cdvd.decSet);
}
void cdvdWrite(u8 key, u8 rt)
@ -1954,7 +1954,7 @@ void cdvdWrite(u8 key, u8 rt)
case 0x18: cdvdWrite18(rt); break;
case 0x3A: cdvdWrite3A(rt); break;
default:
Console::Notice("IOP Unknown 8bit write to addr 0x1f4020%x = 0x%x", params key, rt);
Console::Notice("IOP Unknown 8bit write to addr 0x1f4020%x = 0x%x", key, rt);
break;
}
}

View File

@ -161,7 +161,7 @@ static int FindDiskType(int mType)
switch(iCDType)
{
case CDVD_TYPE_DETCTCD:
Console::Status(" * CDVD Disk Open: CD, %d tracks (%d to %d):", params tn.etrack-tn.strack+1,tn.strack,tn.etrack);
Console::Status(" * CDVD Disk Open: CD, %d tracks (%d to %d):", tn.etrack-tn.strack+1,tn.strack,tn.etrack);
break;
case CDVD_TYPE_DETCTDVDS:
@ -190,12 +190,12 @@ static int FindDiskType(int mType)
if (td.type == CDVD_AUDIO_TRACK)
{
audioTracks++;
Console::Status(" * * Track %d: Audio (%d sectors)", params i,tlength);
Console::Status(" * * Track %d: Audio (%d sectors)", i,tlength);
}
else
{
dataTracks++;
Console::Status(" * * Track %d: Data (Mode %d) (%d sectors)", params i,((td.type==CDVD_MODE1_TRACK)?1:2),tlength);
Console::Status(" * * Track %d: Data (Mode %d) (%d sectors)", i,((td.type==CDVD_MODE1_TRACK)?1:2),tlength);
}
}

View File

@ -54,7 +54,7 @@ s32 CALLBACK ISOopen(const char* pTitle)
iso = isoOpen(pTitle);
if (iso == NULL)
{
Console::Error( "CDVDiso Error: Failed loading %s", params pTitle );
Console::Error( "CDVDiso Error: Failed loading %s", pTitle );
return -1;
}
@ -153,7 +153,7 @@ static void FindLayer1Start()
}
if(layer1start>=0)
Console::Status("\tfound at 0x%8.8x", params layer1start);
Console::Status("\tfound at 0x%8.8x", layer1start);
}
}

View File

@ -945,7 +945,7 @@ s32 cdvdDmaRead(s32 channel, u32* data, u32 wordsLeft, u32* wordsProcessed)
cdr.pTransfer+=wordsLeft;
*wordsProcessed = wordsLeft;
Console::Status("New IOP DMA handled CDVD DMA: channel %d, data %p, remaining %08x, processed %08x.", params channel,data,wordsLeft, *wordsProcessed);
Console::Status("New IOP DMA handled CDVD DMA: channel %d, data %p, remaining %08x, processed %08x.", channel,data,wordsLeft, *wordsProcessed);
return 0;
}

View File

@ -225,7 +225,7 @@ int IsoFS_findFile(const char* fname, TocEntry* tocEntry){
dirTocEntry* tocEntryPointer;
TocEntry localTocEntry; // used for internal checking only
DbgCon::WriteLn("IsoFS_findfile(\"%s\") called", params fname);
DbgCon::WriteLn("IsoFS_findfile(\"%s\") called", fname);
_splitpath2(fname, pathname, filename);

View File

@ -139,13 +139,13 @@ isoFile *isoOpen(const char *filename)
iso->handle = _openfile( iso->filename, O_RDONLY);
if (iso->handle == NULL)
{
Console::Error("error loading %s", params iso->filename);
Console::Error("error loading %s", iso->filename);
return NULL;
}
if (isoDetect(iso) == -1) return NULL;
Console::WriteLn("detected blocksize = %d", params iso->blocksize);
Console::WriteLn("detected blocksize = %d", iso->blocksize);
if ((strlen(iso->filename) > 3) && strncmp(iso->filename + (strlen(iso->filename) - 3), "I00", 3) == 0)
{
@ -183,12 +183,12 @@ isoFile *isoOpen(const char *filename)
iso->blocks = (u32)((_tellfile(iso->handle) - iso->offset) / (iso->blocksize));
}
Console::WriteLn("isoOpen: %s ok", params iso->filename);
Console::WriteLn("offset = %d", params iso->offset);
Console::WriteLn("blockofs = %d", params iso->blockofs);
Console::WriteLn("blocksize = %d", params iso->blocksize);
Console::WriteLn("blocks = %d", params iso->blocks);
Console::WriteLn("type = %d", params iso->type);
Console::WriteLn("isoOpen: %s ok", iso->filename);
Console::WriteLn("offset = %d", iso->offset);
Console::WriteLn("blockofs = %d", iso->blockofs);
Console::WriteLn("blocksize = %d", iso->blocksize);
Console::WriteLn("blocks = %d", iso->blocks);
Console::WriteLn("type = %d", iso->type);
return iso;
}
@ -221,12 +221,12 @@ isoFile *isoCreate(const char *filename, int flags)
if (iso->handle == NULL)
{
Console::Error("Error loading %s", params iso->filename);
Console::Error("Error loading %s", iso->filename);
return NULL;
}
Console::WriteLn("isoCreate: %s ok", params iso->filename);
Console::WriteLn("offset = %d", params iso->offset);
Console::WriteLn("isoCreate: %s ok", iso->filename);
Console::WriteLn("offset = %d", iso->offset);
return iso;
}
@ -237,9 +237,9 @@ int isoSetFormat(isoFile *iso, int blockofs, int blocksize, int blocks)
iso->blocks = blocks;
iso->blockofs = blockofs;
Console::WriteLn("blockofs = %d", params iso->blockofs);
Console::WriteLn("blocksize = %d", params iso->blocksize);
Console::WriteLn("blocks = %d", params iso->blocks);
Console::WriteLn("blockofs = %d", iso->blockofs);
Console::WriteLn("blocksize = %d", iso->blocksize);
Console::WriteLn("blocks = %d", iso->blocks);
if (iso->flags & ISOFLAGS_BLOCKDUMP_V2)
{
@ -294,7 +294,7 @@ int _isoReadBlock(isoFile *iso, u8 *dst, int lsn)
if (ret < iso->blocksize)
{
Console::Error("read error %d in _isoReadBlock", params ret);
Console::Error("read error %d in _isoReadBlock", ret);
return -1;
}
@ -305,7 +305,7 @@ int _isoReadBlockD(isoFile *iso, u8 *dst, int lsn)
{
int ret;
// Console::WriteLn("_isoReadBlockD %d, blocksize=%d, blockofs=%d\n", params lsn, iso->blocksize, iso->blockofs);
// Console::WriteLn("_isoReadBlockD %d, blocksize=%d, blockofs=%d\n", lsn, iso->blocksize, iso->blockofs);
memset(dst, 0, iso->blockofs);
for (int i = 0; i < iso->dtablesize; i++)
@ -319,7 +319,7 @@ int _isoReadBlockD(isoFile *iso, u8 *dst, int lsn)
return 0;
}
Console::WriteLn("Block %d not found in dump", params lsn);
Console::WriteLn("Block %d not found in dump", lsn);
return -1;
}
@ -341,7 +341,7 @@ int _isoReadBlockM(isoFile *iso, u8 *dst, int lsn)
ofs = (u64)(lsn - iso->multih[i].slsn) * iso->blocksize + iso->offset;
// Console::WriteLn("_isoReadBlock %d, blocksize=%d, blockofs=%d\n", params lsn, iso->blocksize, iso->blockofs);
// Console::WriteLn("_isoReadBlock %d, blocksize=%d, blockofs=%d\n", lsn, iso->blocksize, iso->blockofs);
memset(dst, 0, iso->blockofs);
_seekfile(iso->multih[i].handle, ofs, SEEK_SET);
@ -349,7 +349,7 @@ int _isoReadBlockM(isoFile *iso, u8 *dst, int lsn)
if (ret < iso->blocksize)
{
Console::WriteLn("read error %d in _isoReadBlockM", params ret);
Console::WriteLn("read error %d in _isoReadBlockM", ret);
return -1;
}
@ -362,7 +362,7 @@ int isoReadBlock(isoFile *iso, u8 *dst, int lsn)
if (lsn > iso->blocks)
{
Console::WriteLn("isoReadBlock: %d > %d", params lsn, iso->blocks);
Console::WriteLn("isoReadBlock: %d > %d", lsn, iso->blocks);
return -1;
}
@ -403,13 +403,13 @@ int _isoWriteBlockD(isoFile *iso, u8 *src, int lsn)
{
int ret;
// Console::WriteLn("_isoWriteBlock %d (ofs=%d)", params iso->blocksize, ofs);
// Console::WriteLn("_isoWriteBlock %d (ofs=%d)", iso->blocksize, ofs);
ret = _writefile(iso->handle, &lsn, 4);
if (ret < 4) return -1;
ret = _writefile(iso->handle, src + iso->blockofs, iso->blocksize);
// Console::WriteLn("_isoWriteBlock %d", params ret);
// Console::WriteLn("_isoWriteBlock %d", ret);
if (ret < iso->blocksize) return -1;

View File

@ -26,7 +26,7 @@ void *_openfile(const char *filename, int flags)
{
HANDLE handle;
// Console::WriteLn("_openfile %s, %d", params filename, flags & O_RDONLY);
// Console::WriteLn("_openfile %s, %d", filename, flags & O_RDONLY);
if (flags & O_WRONLY)
{
int _flags = CREATE_NEW;
@ -55,7 +55,7 @@ int _seekfile(void *handle, u64 offset, int whence)
u64 ofs = (u64)offset;
PLONG _ofs = (LONG*) & ofs;
// Console::WriteLn("_seekfile %p, %d_%d", params handle, _ofs[1], _ofs[0]);
// Console::WriteLn("_seekfile %p, %d_%d", handle, _ofs[1], _ofs[0]);
SetFilePointer(handle, _ofs[0], &_ofs[1], (whence == SEEK_SET) ? FILE_BEGIN : FILE_END);
@ -67,7 +67,7 @@ int _readfile(void *handle, void *dst, int size)
DWORD ret;
ReadFile(handle, dst, size, &ret, NULL);
// Console::WriteLn("_readfile(%p, %d) = %d; %d", params handle, size, ret, GetLastError());
// Console::WriteLn("_readfile(%p, %d) = %d; %d", handle, size, ret, GetLastError());
return ret;
}
@ -77,7 +77,7 @@ int _writefile(void *handle, const void *src, int size)
// _seekfile(handle, _tellfile(handle));
WriteFile(handle, src, size, &ret, NULL);
// Console::WriteLn("_readfile(%p, %d) = %d", params handle, size, ret);
// Console::WriteLn("_readfile(%p, %d) = %d", handle, size, ret);
return ret;
}
@ -90,7 +90,7 @@ void _closefile(void *handle)
void *_openfile(const char *filename, int flags)
{
// Console::WriteLn("_openfile %s %x", params filename, flags);
// Console::WriteLn("_openfile %s %x", filename, flags);
if (flags & O_WRONLY)
return fopen64(filename, "wb");

View File

@ -50,12 +50,12 @@ void MapTLB(int i)
u32 mask, addr;
u32 saddr, eaddr;
DevCon::WriteLn("MAP TLB %d: %08x-> [%08x %08x] S=%d G=%d ASID=%d Mask= %03X", params
DevCon::WriteLn("MAP TLB %d: %08x-> [%08x %08x] S=%d G=%d ASID=%d Mask= %03X",
i,tlb[i].VPN2,tlb[i].PFN0,tlb[i].PFN1,tlb[i].S,tlb[i].G,tlb[i].ASID,tlb[i].Mask);
if (tlb[i].S)
{
DevCon::WriteLn("OMG SPRAM MAPPING %08X %08X\n",params tlb[i].VPN2,tlb[i].Mask);
DevCon::WriteLn("OMG SPRAM MAPPING %08X %08X\n", tlb[i].VPN2,tlb[i].Mask);
vtlb_VMapBuffer(tlb[i].VPN2, psS, 0x4000);
}
@ -90,7 +90,7 @@ void MapTLB(int i)
void UnmapTLB(int i)
{
//Console::WriteLn("Clear TLB %d: %08x-> [%08x %08x] S=%d G=%d ASID=%d Mask= %03X", params i,tlb[i].VPN2,tlb[i].PFN0,tlb[i].PFN1,tlb[i].S,tlb[i].G,tlb[i].ASID,tlb[i].Mask);
//Console::WriteLn("Clear TLB %d: %08x-> [%08x %08x] S=%d G=%d ASID=%d Mask= %03X", i,tlb[i].VPN2,tlb[i].PFN0,tlb[i].PFN1,tlb[i].S,tlb[i].G,tlb[i].ASID,tlb[i].Mask);
u32 mask, addr;
u32 saddr, eaddr;
@ -105,7 +105,7 @@ void UnmapTLB(int i)
mask = ((~tlb[i].Mask) << 1) & 0xfffff;
saddr = tlb[i].VPN2 >> 12;
eaddr = saddr + tlb[i].Mask + 1;
// Console::WriteLn("Clear TLB: %08x ~ %08x",params saddr,eaddr-1);
// Console::WriteLn("Clear TLB: %08x ~ %08x",saddr,eaddr-1);
for (addr=saddr; addr<eaddr; addr++) {
if ((addr & mask) == ((tlb[i].VPN2 >> 12) & mask)) { //match
memClearPageAddr(addr << 12);
@ -118,7 +118,7 @@ void UnmapTLB(int i)
mask = ((~tlb[i].Mask) << 1) & 0xfffff;
saddr = (tlb[i].VPN2 >> 12) + tlb[i].Mask + 1;
eaddr = saddr + tlb[i].Mask + 1;
// Console::WriteLn("Clear TLB: %08x ~ %08x",params saddr,eaddr-1);
// Console::WriteLn("Clear TLB: %08x ~ %08x",saddr,eaddr-1);
for (addr=saddr; addr<eaddr; addr++) {
if ((addr & mask) == ((tlb[i].VPN2 >> 12) & mask)) { //match
memClearPageAddr(addr << 12);
@ -212,10 +212,10 @@ static __forceinline bool PERF_ShouldCountEvent( uint evt )
void COP0_DiagnosticPCCR()
{
if( cpuRegs.PERF.n.pccr.b.Event0 >= 7 && cpuRegs.PERF.n.pccr.b.Event0 <= 10 )
Console::Notice( "PERF/PCR0 Unsupported Update Event Mode = 0x%x", params cpuRegs.PERF.n.pccr.b.Event0 );
Console::Notice( "PERF/PCR0 Unsupported Update Event Mode = 0x%x", cpuRegs.PERF.n.pccr.b.Event0 );
if( cpuRegs.PERF.n.pccr.b.Event1 >= 7 && cpuRegs.PERF.n.pccr.b.Event1 <= 10 )
Console::Notice( "PERF/PCR1 Unsupported Update Event Mode = 0x%x", params cpuRegs.PERF.n.pccr.b.Event1 );
Console::Notice( "PERF/PCR1 Unsupported Update Event Mode = 0x%x", cpuRegs.PERF.n.pccr.b.Event1 );
}
extern int branch;
__forceinline void COP0_UpdatePCCR()
@ -339,7 +339,7 @@ void MFC0()
if ((_Rd_ != 9) && !_Rt_ ) return;
if (_Rd_ != 9) { COP0_LOG("%s", disR5900Current.getCString() ); }
//if(bExecBIOS == FALSE && _Rd_ == 25) Console::WriteLn("MFC0 _Rd_ %x = %x", params _Rd_, cpuRegs.CP0.r[_Rd_]);
//if(bExecBIOS == FALSE && _Rd_ == 25) Console::WriteLn("MFC0 _Rd_ %x = %x", _Rd_, cpuRegs.CP0.r[_Rd_]);
switch (_Rd_)
{
case 12:
@ -368,7 +368,7 @@ void MFC0()
break;
case 24:
Console::WriteLn("MFC0 Breakpoint debug Registers code = %x", params cpuRegs.code & 0x3FF);
Console::WriteLn("MFC0 Breakpoint debug Registers code = %x", cpuRegs.code & 0x3FF);
break;
case 9:
@ -388,7 +388,7 @@ void MFC0()
void MTC0()
{
COP0_LOG("%s\n", disR5900Current.getCString());
//if(bExecBIOS == FALSE && _Rd_ == 25) Console::WriteLn("MTC0 _Rd_ %x = %x", params _Rd_, cpuRegs.CP0.r[_Rd_]);
//if(bExecBIOS == FALSE && _Rd_ == 25) Console::WriteLn("MTC0 _Rd_ %x = %x", _Rd_, cpuRegs.CP0.r[_Rd_]);
switch (_Rd_)
{
case 9:
@ -401,7 +401,7 @@ void MTC0()
break;
case 24:
Console::WriteLn("MTC0 Breakpoint debug Registers code = %x", params cpuRegs.code & 0x3FF);
Console::WriteLn("MTC0 Breakpoint debug Registers code = %x", cpuRegs.code & 0x3FF);
break;
case 25:

View File

@ -259,7 +259,7 @@ u32 UpdateVSyncRate()
{
m_iTicks = ticks;
gsOnModeChanged( vSyncInfo.Framerate, m_iTicks );
Console::Status( limiterMsg, params EmuConfig.Video.FpsLimit, 0 );
Console::Status( limiterMsg, EmuConfig.Video.FpsLimit, 0 );
}
}
else
@ -269,7 +269,7 @@ u32 UpdateVSyncRate()
{
m_iTicks = ticks;
gsOnModeChanged( vSyncInfo.Framerate, m_iTicks );
Console::Status( limiterMsg, params vSyncInfo.Framerate/50, (vSyncInfo.Framerate*2)%100 );
Console::Status( limiterMsg, vSyncInfo.Framerate/50, (vSyncInfo.Framerate*2)%100 );
}
}
@ -478,7 +478,7 @@ __forceinline void rcntUpdate_vSync()
if( vblankinc > 1 )
{
if( hsc != vSyncInfo.hScanlinesPerFrame )
Console::WriteLn( " ** vSync > Abnormal Scanline Count: %d", params hsc );
Console::WriteLn( " ** vSync > Abnormal Scanline Count: %d", hsc );
hsc = 0;
vblankinc = 0;
}

View File

@ -131,7 +131,7 @@ typedef void (*TdisR5900F)DisFInterface;
// sap! it stands for string append. It's not a friendly name but for now it makes
// the copy-paste marathon of code below more readable!
#define _sap( str ) ssappendf( output, str, params
#define _sap( str ) ssappendf( output, str,
#define dName(i) _sap("%-7s\t") i);
#define dGPR128(i) _sap("%8.8x_%8.8x_%8.8x_%8.8x (%s),") cpuRegs.GPR.r[i].UL[3], cpuRegs.GPR.r[i].UL[2], cpuRegs.GPR.r[i].UL[1], cpuRegs.GPR.r[i].UL[0], disRNameGPR[i])
@ -766,7 +766,7 @@ MakeDisF(disVWAITQ, dName("VWAITQ");)
MakeDisF(disSYNC, dName("SYNC");)
MakeDisF(disBREAK, dName("BREAK");)
MakeDisF(disSYSCALL, dName("SYSCALL"); dCode();)
MakeDisF(disCACHE, ssappendf(output, "%-7s, %x,", params "CACHE", _Rt_); dOfB();)
MakeDisF(disCACHE, ssappendf(output, "%-7s, %x,", "CACHE", _Rt_); dOfB();)
MakeDisF(disPREF, dName("PREF");)
MakeDisF(disMFSA, dName("MFSA"); dGPR64(_Rd_); dSaR();)

View File

@ -211,7 +211,7 @@ void iDumpBlock( int startpc, u8 * ptr )
u8 fpuused[33];
int numused, fpunumused;
Console::Status( "dump1 %x:%x, %x", params startpc, pc, cpuRegs.cycle );
Console::Status( "dump1 %x:%x, %x", startpc, pc, cpuRegs.cycle );
g_Conf->Folders.Logs.Mkdir();
AsciiFile eff(

View File

@ -390,7 +390,7 @@ struct ElfObject
size = proghead[ i ].p_filesz;
if( proghead[ i ].p_vaddr != proghead[ i ].p_paddr )
Console::Notice( "ElfProgram different load addrs: paddr=0x%8.8x, vaddr=0x%8.8x", params
Console::Notice( "ElfProgram different load addrs: paddr=0x%8.8x, vaddr=0x%8.8x",
proghead[ i ].p_paddr, proghead[ i ].p_vaddr);
// used to be paddr
@ -477,7 +477,7 @@ struct ElfObject
SymNames = (char*)data.GetPtr( secthead[ i_dt ].sh_offset );
eS = (Elf32_Sym*)data.GetPtr( secthead[ i_st ].sh_offset );
Console::WriteLn("found %d symbols", params secthead[ i_st ].sh_size / sizeof( Elf32_Sym ));
Console::WriteLn("found %d symbols", secthead[ i_st ].sh_size / sizeof( Elf32_Sym ));
for( uint i = 1; i < ( secthead[ i_st ].sh_size / sizeof( Elf32_Sym ) ); i++ ) {
if ( ( eS[ i ].st_value != 0 ) && ( ELF32_ST_TYPE( eS[ i ].st_info ) == 2 ) ) {
@ -515,14 +515,14 @@ u32 loadElfCRC( const char* filename )
IsoFS_init( );
Console::Status("loadElfCRC: %s", params filename);
Console::Status("loadElfCRC: %s", filename);
int mylen = strlen( "cdromN:" );
if ( IsoFS_findFile( filename + mylen, &toc ) == -1 ) return 0;
DevCon::Status( "loadElfFile: %d bytes", params toc.fileSize );
DevCon::Status( "loadElfFile: %d bytes", toc.fileSize );
u32 crcval = ElfObject( wxString::FromAscii( filename ), toc.fileSize ).GetCRC();
Console::Status( "loadElfFile: %s; CRC = %8.8X", params filename, crcval );
Console::Status( "loadElfFile: %s; CRC = %8.8X", filename, crcval );
return crcval;
}
@ -597,7 +597,7 @@ void loadElfFile(const wxString& filename)
if( memcmp( "rom0:OSDSYS", (char*)PSM( i ), 11 ) == 0 )
{
strcpy( (char*)PSM( i ), fnptr );
DevCon::Status( "loadElfFile: addr %x \"%s\" -> \"%s\"", params i, "rom0:OSDSYS", fnptr );
DevCon::Status( "loadElfFile: addr %x \"%s\" -> \"%s\"", i, "rom0:OSDSYS", fnptr );
}
}

View File

@ -89,7 +89,7 @@ void __fastcall ReadFIFO_page_6(u32 mem, u64 *out)
{
jASSUME( (mem >= GIF_FIFO) && (mem < IPUout_FIFO) );
DevCon::Notice( "ReadFIFO/GIF, addr=0x%x", params mem );
DevCon::Notice( "ReadFIFO/GIF, addr=0x%x", mem );
//out[0] = psHu64(mem );
//out[1] = psHu64(mem+8);
@ -190,7 +190,7 @@ void __fastcall WriteFIFO_page_7(u32 mem, const mem128_t *value)
// All addresses in this page map to 0x7000 and 0x7010:
mem &= 0x10;
IPU_LOG( "WriteFIFO/IPU, addr=0x%x", params mem );
IPU_LOG( "WriteFIFO/IPU, addr=0x%x", mem );
if( mem == 0 )
{

View File

@ -133,7 +133,7 @@ void gsSetRegionMode( GS_RegionMode region )
if( gsRegionMode == region ) return;
gsRegionMode = region;
Console::WriteLn( "%s Display Mode Initialized.", params (( gsRegionMode == Region_PAL ) ? "PAL" : "NTSC") );
Console::WriteLn( "%s Display Mode Initialized.", (( gsRegionMode == Region_PAL ) ? "PAL" : "NTSC") );
UpdateVSyncRate();
}
@ -209,7 +209,7 @@ void gsCSRwrite(u32 value)
// Our emulated GS has no FIFO...
/*if( value & 0x100 ) { // FLUSH
//Console::WriteLn("GS_CSR FLUSH GS fifo: %x (CSRr=%x)", params value, GSCSRr);
//Console::WriteLn("GS_CSR FLUSH GS fifo: %x (CSRr=%x)", value, GSCSRr);
}*/
if (value & 0x200) { // resetGS
@ -226,7 +226,7 @@ void gsCSRwrite(u32 value)
}
else if( value & 0x100 ) // FLUSH
{
//Console::WriteLn("GS_CSR FLUSH GS fifo: %x (CSRr=%x)", params value, GSCSRr);
//Console::WriteLn("GS_CSR FLUSH GS fifo: %x (CSRr=%x)", value, GSCSRr);
}
else
{
@ -578,7 +578,7 @@ __forceinline void gsFrameSkip( bool forceskip )
return;
}
//Console::WriteLn( "Consecutive Frames -- Lateness: %d", params (int)( sSlowDeltaTime / m_iSlowTicks ) );
//Console::WriteLn( "Consecutive Frames -- Lateness: %d", (int)( sSlowDeltaTime / m_iSlowTicks ) );
// -- Consecutive frames section --
// Force-render consecutive frames without skipping.

View File

@ -59,7 +59,7 @@ __forceinline void gsInterrupt()
if (!(gif->chcr.STR))
{
//Console::WriteLn("Eh? why are you still interrupting! chcr %x, qwc %x, done = %x", params gif->chcr._u32, gif->qwc, done);
//Console::WriteLn("Eh? why are you still interrupting! chcr %x, qwc %x, done = %x", gif->chcr._u32, gif->qwc, done);
return;
}
@ -200,7 +200,7 @@ void GIFdma()
if ((dmacRegs->ctrl.STD == STD_GIF) && (prevcycles != 0))
{
Console::WriteLn("GS Stall Control Source = %x, Drain = %x\n MADR = %x, STADR = %x", params (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3, gif->madr, psHu32(DMAC_STADR));
Console::WriteLn("GS Stall Control Source = %x, Drain = %x\n MADR = %x, STADR = %x", (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3, gif->madr, psHu32(DMAC_STADR));
if ((gif->madr + (gif->qwc * 16)) > psHu32(DMAC_STADR))
{
@ -276,7 +276,7 @@ void GIFdma()
if (!gspath3done && ((gif->madr + (gif->qwc * 16)) > psHu32(DMAC_STADR)) && (id == 4))
{
// stalled
Console::WriteLn("GS Stall Control Source = %x, Drain = %x\n MADR = %x, STADR = %x", params (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3,gif->madr, psHu32(DMAC_STADR));
Console::WriteLn("GS Stall Control Source = %x, Drain = %x\n MADR = %x, STADR = %x", (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3,gif->madr, psHu32(DMAC_STADR));
prevcycles = gscycles;
gif->tadr -= 16;
hwDmacIrq(DMAC_STALL_SIS);
@ -443,7 +443,7 @@ void mfifoGIFtransfer(int qwc)
{
if (gif->tadr == spr0->madr)
{
//if( gifqwc > 1 ) DevCon::WriteLn("gif mfifo tadr==madr but qwc = %d", params gifqwc);
//if( gifqwc > 1 ) DevCon::WriteLn("gif mfifo tadr==madr but qwc = %d", gifqwc);
hwDmacIrq(DMAC_MFIFO_EMPTY);
gifstate |= GIF_STATE_EMPTY;
return;
@ -506,8 +506,7 @@ void mfifoGIFtransfer(int qwc)
FreezeRegs(1);
if (mfifoGIFchain() == -1)
{
Console::WriteLn("GIF dmaChain error size=%d, madr=%lx, tadr=%lx", params
gif->qwc, gif->madr, gif->tadr);
Console::WriteLn("GIF dmaChain error size=%d, madr=%lx, tadr=%lx", gif->qwc, gif->madr, gif->tadr);
gifstate = GIF_STATE_STALL;
}
FreezeRegs(0);
@ -564,7 +563,7 @@ void gifMFIFOInterrupt()
return;
}
#endif
//if(gifqwc > 0) Console::WriteLn("GIF MFIFO ending with stuff in it %x", params gifqwc);
//if(gifqwc > 0) Console::WriteLn("GIF MFIFO ending with stuff in it %x", gifqwc);
if (!gifmfifoirq) gifqwc = 0;
gspath3done = 0;

View File

@ -586,7 +586,7 @@ static __forceinline void *dmaGetAddr(u32 addr) {
ptr = (u8*)vtlb_GetPhyPtr(addr&0x1FFFFFF0);
if (ptr == NULL) {
Console::Error( "*PCSX2*: DMA error: %8.8x", params addr);
Console::Error( "*PCSX2*: DMA error: %8.8x", addr);
return NULL;
}
return ptr;

View File

@ -57,7 +57,7 @@ __forceinline mem8_t hwRead8(u32 mem)
u8 ret;
if( mem >= IPU_CMD && mem < D0_CHCR )
DevCon::Notice("Unexpected hwRead8 from 0x%x", params mem);
DevCon::Notice("Unexpected hwRead8 from 0x%x", mem);
switch (mem)
{
@ -130,7 +130,7 @@ __forceinline mem16_t hwRead16(u32 mem)
u16 ret;
if( mem >= IPU_CMD && mem < D0_CHCR )
Console::Notice("Unexpected hwRead16 from 0x%x", params mem);
Console::Notice("Unexpected hwRead16 from 0x%x", mem);
switch (mem)
{

View File

@ -61,7 +61,7 @@ static __forceinline void DmaExec8( void (*func)(), u32 mem, u8 value )
psHu8(mem) = (u8)value;
if ((psHu8(mem) & 0x1) && dmacRegs->ctrl.DMAE)
{
/*Console::WriteLn("Running DMA 8 %x", params psHu32(mem & ~0x1));*/
/*Console::WriteLn("Running DMA 8 %x", psHu32(mem & ~0x1));*/
func();
}
}
@ -151,7 +151,7 @@ void hwWrite8(u32 mem, u8 value)
}
if( mem >= IPU_CMD && mem < D0_CHCR )
DevCon::Notice( "hwWrite8 to 0x%x = 0x%x", params mem, value );
DevCon::Notice( "hwWrite8 to 0x%x = 0x%x", mem, value );
switch (mem) {
case RCNT0_COUNT: rcntWcount(0, value); break;
@ -352,7 +352,7 @@ void hwWrite8(u32 mem, u8 value)
__forceinline void hwWrite16(u32 mem, u16 value)
{
if( mem >= IPU_CMD && mem < D0_CHCR )
Console::Notice( "hwWrite16 to %x", params mem );
Console::Notice( "hwWrite16 to %x", mem );
switch(mem)
{
@ -746,7 +746,7 @@ void __fastcall hwWrite32_page_03( u32 mem, u32 value )
break;
case GIF_STAT: // stat is readonly
DevCon::Notice("*PCSX2* GIFSTAT write value = 0x%x (readonly, ignored)", params value);
DevCon::Notice("*PCSX2* GIFSTAT write value = 0x%x (readonly, ignored)", value);
break;
default:
@ -1070,7 +1070,7 @@ void __fastcall hwWrite64_page_03( u32 mem, const mem64_t* srcval )
switch (mem)
{
case GIF_CTRL:
DevCon::Status("GIF_CTRL write 64", params value);
DevCon::Status("GIF_CTRL write 64", value);
psHu32(mem) = value & 0x8;
if(value & 0x1)
gsGIFReset();
@ -1088,7 +1088,7 @@ void __fastcall hwWrite64_page_03( u32 mem, const mem64_t* srcval )
// set/clear bits 0 and 2 as per the GIF_MODE value.
const u32 bitmask = GIF_MODE_M3R | GIF_MODE_IMT;
Console::Status("GIFMODE64 %x", params value);
Console::Status("GIFMODE64 %x", value);
psHu64(GIF_MODE) = value;
psHu32(GIF_STAT) &= ~bitmask;

View File

@ -177,23 +177,23 @@ void ipuShutdown()
void ReportIPU()
{
Console::WriteLn("g_nDMATransfer = 0x%x.", params g_nDMATransfer);
Console::WriteLn("FIreadpos = 0x%x, FIwritepos = 0x%x.", params FIreadpos, FIwritepos);
Console::WriteLn("fifo_input = 0x%x.", params fifo_input);
Console::WriteLn("FOreadpos = 0x%x, FOwritepos = 0x%x.", params FOreadpos, FOwritepos);
Console::WriteLn("fifo_output = 0x%x.", params fifo_output);
Console::WriteLn("g_BP = 0x%x.", params g_BP);
Console::WriteLn("niq = 0x%x, iq = 0x%x.", params niq, iq);
Console::WriteLn("vqclut = 0x%x.", params vqclut);
Console::WriteLn("s_thresh = 0x%x.", params s_thresh);
Console::WriteLn("coded_block_pattern = 0x%x.", params coded_block_pattern);
Console::WriteLn("g_decoder = 0x%x.", params g_decoder);
Console::WriteLn("mpeg2_scan_norm = 0x%x, mpeg2_scan_alt = 0x%x.", params mpeg2_scan_norm, mpeg2_scan_alt);
Console::WriteLn("g_nCmdPos = 0x%x.", params g_nCmdPos);
Console::WriteLn("g_nCmdIndex = 0x%x.", params g_nCmdIndex);
Console::WriteLn("ipuCurCmd = 0x%x.", params ipuCurCmd);
Console::WriteLn("_readbits = 0x%x.", params _readbits);
Console::WriteLn("temp will equal 0x%x.", params readbits - _readbits);
Console::WriteLn("g_nDMATransfer = 0x%x.", g_nDMATransfer);
Console::WriteLn("FIreadpos = 0x%x, FIwritepos = 0x%x.", FIreadpos, FIwritepos);
Console::WriteLn("fifo_input = 0x%x.", fifo_input);
Console::WriteLn("FOreadpos = 0x%x, FOwritepos = 0x%x.", FOreadpos, FOwritepos);
Console::WriteLn("fifo_output = 0x%x.", fifo_output);
Console::WriteLn("g_BP = 0x%x.", g_BP);
Console::WriteLn("niq = 0x%x, iq = 0x%x.", niq, iq);
Console::WriteLn("vqclut = 0x%x.", vqclut);
Console::WriteLn("s_thresh = 0x%x.", s_thresh);
Console::WriteLn("coded_block_pattern = 0x%x.", coded_block_pattern);
Console::WriteLn("g_decoder = 0x%x.", g_decoder);
Console::WriteLn("mpeg2_scan_norm = 0x%x, mpeg2_scan_alt = 0x%x.", mpeg2_scan_norm, mpeg2_scan_alt);
Console::WriteLn("g_nCmdPos = 0x%x.", g_nCmdPos);
Console::WriteLn("g_nCmdIndex = 0x%x.", g_nCmdIndex);
Console::WriteLn("ipuCurCmd = 0x%x.", ipuCurCmd);
Console::WriteLn("_readbits = 0x%x.", _readbits);
Console::WriteLn("temp will equal 0x%x.", readbits - _readbits);
Console::WriteLn("");
}
// fixme - ipuFreeze looks fairly broken. Should probably take a closer look at some point.
@ -980,7 +980,7 @@ void IPUWorker()
return;
default:
Console::WriteLn("Unknown IPU command: %x", params ipuRegs->cmd.CMD);
Console::WriteLn("Unknown IPU command: %x", ipuRegs->cmd.CMD);
break;
}
@ -1631,7 +1631,7 @@ int FIFOfrom_write(const u32 *value, int size)
ipuRegs->ctrl.OFC += firsttrans;
IPU0dma();
//Console::WriteLn("Written %d qwords, %d", params firsttrans,ipuRegs->ctrl.OFC);
//Console::WriteLn("Written %d qwords, %d", firsttrans,ipuRegs->ctrl.OFC);
return firsttrans;
}

View File

@ -53,7 +53,7 @@ static void execI()
//runs++;
//if (runs > 1599999999){ //leave some time to startup the testgame
// if (opcode.Name[0] == 'L') { //find all opcodes beginning with "L"
// Console::WriteLn ("Load %s", params opcode.Name);
// Console::WriteLn ("Load %s", opcode.Name);
// }
//}

View File

@ -180,7 +180,7 @@ void bios_write() // 0x35/0x03
// fixme: This should use %s with a length parameter (but I forget the exact syntax
while (a2 > 0)
{
Console::Write("%c", params *ptr++);
Console::Write("%c", *ptr++);
a2--;
}
}
@ -293,13 +293,13 @@ _start:
// Note: Use Read to obtain a write pointer here, since we're just writing back the
// temp buffer we saved earlier.
memcpy( (void*)iopVirtMemR<void>(sp), save, 4*4);
Console::Write( Color_Cyan, "%s", params tmp);
Console::Write( Color_Cyan, "%s", tmp);
pc0 = ra;
}
void bios_putchar () // 3d
{
Console::Write( Color_Cyan, "%c", params a0 );
Console::Write( Color_Cyan, "%c", a0 );
pc0 = ra;
}

View File

@ -189,7 +189,7 @@ static void __fastcall _rcntTestTarget( int i )
psxCounters[i].count -= psxCounters[i].target;
if(!(psxCounters[i].mode & 0x40))
{
Console::WriteLn("Counter %x repeat intr not set on zero ret, ignoring target", params i);
Console::WriteLn("Counter %x repeat intr not set on zero ret, ignoring target", i);
psxCounters[i].target |= IOPCNT_FUTURE_TARGET;
}
} else psxCounters[i].target |= IOPCNT_FUTURE_TARGET;
@ -639,7 +639,7 @@ __forceinline void psxRcntWmode32( int index, u32 value )
// Need to set a rate and target
if((counter.mode & 0x7) == 0x7 || (counter.mode & 0x7) == 0x1)
{
Console::WriteLn( "Gate set on IOP Counter %d, disabling", params index );
Console::WriteLn( "Gate set on IOP Counter %d, disabling", index );
counter.mode |= IOPCNT_STOPPED;
}
}

View File

@ -57,7 +57,7 @@ static void __fastcall psxDmaGeneric(u32 madr, u32 bcr, u32 chcr, u32 spuCore, _
if((g_psxNextBranchCycle - psxNextsCounter) > (u32)psxNextCounter)
{
//DevCon::Notice("SPU2async Setting new counter branch, old %x new %x ((%x - %x = %x) > %x delta)", params g_psxNextBranchCycle, psxNextsCounter + psxNextCounter, g_psxNextBranchCycle, psxNextsCounter, (g_psxNextBranchCycle - psxNextsCounter), psxNextCounter);
//DevCon::Notice("SPU2async Setting new counter branch, old %x new %x ((%x - %x = %x) > %x delta)", g_psxNextBranchCycle, psxNextsCounter + psxNextCounter, g_psxNextBranchCycle, psxNextsCounter, (g_psxNextBranchCycle - psxNextsCounter), psxNextCounter);
g_psxNextBranchCycle = psxNextsCounter + psxNextCounter;
}
}
@ -76,7 +76,7 @@ static void __fastcall psxDmaGeneric(u32 madr, u32 bcr, u32 chcr, u32 spuCore, _
break;
default:
Console::Error("*** DMA %c - SPU unknown *** %x addr = %x size = %x", params dmaNum, chcr, madr, bcr);
Console::Error("*** DMA %c - SPU unknown *** %x addr = %x size = %x", dmaNum, chcr, madr, bcr);
break;
}
}
@ -482,7 +482,7 @@ void IopDmaUpdate(u32 elapsed)
s32 errDmaRead(s32 channel, u32* data, u32 bytesLeft, u32* bytesProcessed)
{
Console::Error("ERROR: Tried to read using DMA %d (%s). Ignoring.", params 0, channel, IopDmaNames[channel]);
Console::Error("ERROR: Tried to read using DMA %d (%s). Ignoring.", 0, channel, IopDmaNames[channel]);
*bytesProcessed = bytesLeft;
return 0;
@ -490,7 +490,7 @@ s32 errDmaRead(s32 channel, u32* data, u32 bytesLeft, u32* bytesProcessed)
s32 errDmaWrite(s32 channel, u32* data, u32 bytesLeft, u32* bytesProcessed)
{
Console::Error("ERROR: Tried to write using DMA %d (%s). Ignoring.", params 0, channel, IopDmaNames[channel]);
Console::Error("ERROR: Tried to write using DMA %d (%s). Ignoring.", 0, channel, IopDmaNames[channel]);
*bytesProcessed = bytesLeft;
return 0;

View File

@ -71,7 +71,7 @@ u8 psxHwRead8(u32 add) {
case IOP_T5_COUNT:
case IOP_T5_MODE:
case IOP_T5_TARGET:
DevCon::Notice( "IOP Counter Read8 from addr0x%x = 0x%x", params add, psxHu8(add) );
DevCon::Notice( "IOP Counter Read8 from addr0x%x = 0x%x", add, psxHu8(add) );
return psxHu8(add);
#endif
@ -625,7 +625,7 @@ void psxHwWrite8(u32 add, u8 value) {
USBwrite8(add, value); return;
}
if((add & 0xf) == 0xa)
Console::Error("8bit write (possible chcr set) to addr 0x%x = 0x%x", params add, value );
Console::Error("8bit write (possible chcr set) to addr 0x%x = 0x%x", add, value );
switch (add) {
case 0x1f801040:
@ -651,7 +651,7 @@ void psxHwWrite8(u32 add, u8 value) {
case IOP_T5_COUNT:
case IOP_T5_MODE:
case IOP_T5_TARGET:
DevCon::Notice( "IOP Counter Write8 to addr 0x%x = 0x%x", params add, value );
DevCon::Notice( "IOP Counter Write8 to addr 0x%x = 0x%x", add, value );
psxHu8(add) = value;
return;
@ -675,7 +675,7 @@ void psxHwWrite8(u32 add, u8 value) {
( value == '\n' && g_pbufi != 0 ) )
{
g_pbuf[g_pbufi] = 0;
DevCon::WriteLn( Color_Cyan, "%s", params g_pbuf );
DevCon::WriteLn( Color_Cyan, "%s", g_pbuf );
g_pbufi = 0;
}
else if( value != '\n' )
@ -705,7 +705,7 @@ void psxHwWrite16(u32 add, u16 value) {
USBwrite16(add, value); return;
}
if((add & 0xf) == 0x9) DevCon::WriteLn("16bit write (possible chcr set) %x value %x", params add, value);
if((add & 0xf) == 0x9) DevCon::WriteLn("16bit write (possible chcr set) %x value %x", add, value);
switch (add) {
case 0x1f801040:
@ -1238,7 +1238,7 @@ void psxHwWrite32(u32 add, u32 value) {
//------------------------------------------------------------------
case 0x1f8014c0:
PSXHW_LOG("RTC_HOLDMODE 32bit write %lx", value);
Console::Notice("** RTC_HOLDMODE 32bit write %lx", params value);
Console::Notice("** RTC_HOLDMODE 32bit write %lx", value);
break;
case 0x1f801450:
@ -1343,10 +1343,10 @@ void psxDmaInterrupt2(int n)
if (HW_DMA_ICR2 & (1 << (16 + n)))
{
/* if (HW_DMA_ICR2 & (1 << (24 + n))) {
Console::WriteLn("*PCSX2*: HW_DMA_ICR2 n=%d already set", params n);
Console::WriteLn("*PCSX2*: HW_DMA_ICR2 n=%d already set", n);
}
if (psxHu32(0x1070) & 8) {
Console::WriteLn("*PCSX2*: psxHu32(0x1070) 8 already set (n=%d)", params n);
Console::WriteLn("*PCSX2*: psxHu32(0x1070) 8 already set (n=%d)", n);
}*/
HW_DMA_ICR2|= (1 << (24 + n));
psxRegs.CP0.n.Cause |= 1 << (16 + n);

View File

@ -345,7 +345,7 @@ void iopMemWrite8(u32 mem, u8 value)
{
if (t == 0x1d00)
{
Console::WriteLn("sw8 [0x%08X]=0x%08X", params mem, value);
Console::WriteLn("sw8 [0x%08X]=0x%08X", mem, value);
psxSu8(mem) = value;
return;
}
@ -393,7 +393,7 @@ void iopMemWrite16(u32 mem, u16 value)
u8* p = (u8 *)(psxMemWLUT[mem >> 16]);
if (p != NULL && !(psxRegs.CP0.n.Status & 0x10000) )
{
if( t==0x1D00 ) Console::WriteLn("sw16 [0x%08X]=0x%08X", params mem, value);
if( t==0x1D00 ) Console::WriteLn("sw16 [0x%08X]=0x%08X", mem, value);
*(u16 *)(p + (mem & 0xffff)) = value;
psxCpu->Clear(mem&~3, 1);
}

View File

@ -157,7 +157,7 @@ void sio2_serialIn(u8 value){
sioWrite8(value);
if (sio2.packet.sendSize > BUFSIZE) {//asadr
Console::Notice("*PCSX2*: sendSize >= %d", params BUFSIZE);
Console::Notice("*PCSX2*: sendSize >= %d", BUFSIZE);
} else {
sio2.buf[sio2.packet.sendSize] = sioRead8();
sio2.packet.sendSize++;
@ -184,7 +184,7 @@ void sio2_fifoIn(u8 value){
SIODMAWrite(value);
if (sio2.packet.sendSize > BUFSIZE) {//asadr
Console::WriteLn("*PCSX2*: sendSize >= %d", params BUFSIZE);
Console::WriteLn("*PCSX2*: sendSize >= %d", BUFSIZE);
} else {
sio2.buf[sio2.packet.sendSize] = sioRead8();
sio2.packet.sendSize++;

View File

@ -47,7 +47,7 @@ void SysPageFaultExceptionFilter( int signal, siginfo_t *info, void * )
// get bad virtual address
uptr offset = (u8*)info->si_addr - psM;
DevCon::Status( "Protected memory cleanup. Offset 0x%x", params offset );
DevCon::Status( "Protected memory cleanup. Offset 0x%x", offset );
if (offset>=Ps2MemSize::Base)
{

View File

@ -1030,9 +1030,9 @@ void QFSRV() { // JayteeMaster: changed a bit to avoid screw up
cpuRegs.GPR.r[_Rd_].UD[1] = cpuRegs.GPR.r[_Rt_].UD[1];
//saZero++;
//if( saZero >= 388800 )
//Console::WriteLn( "SA Is Zero, Bitch: %d zeros and counting.", params saZero );
//Console::WriteLn( "SA Is Zero, Bitch: %d zeros and counting.", saZero );
} else {
//Console::WriteLn( "SA Properly Valued at: %d (after %d zeros)", params sa_amt, saZero );
//Console::WriteLn( "SA Properly Valued at: %d (after %d zeros)", sa_amt, saZero );
//saZero = 0;
if (sa_amt < 64) {
/*

View File

@ -137,7 +137,7 @@ static void RegHandlerSIGNAL(const u32* data)
static void RegHandlerFINISH(const u32* data)
{
MTGS_LOG("MTGS FINISH data %x_%x CSRw %x\n", params data[0], data[1], CSRw);
MTGS_LOG("MTGS FINISH data %x_%x CSRw %x\n", data[0], data[1], CSRw);
if ((CSRw & 0x2))
{
@ -396,7 +396,7 @@ __forceinline int mtgsThreadObject::_gifTransferDummy( GIF_PATH pathidx, const u
/*if((path.tag.nloop > 0 || (!path.tag.eop && path.tag.nloop == 0)) && size == 0)
{
if(path1loop == true) return size - 0x400;
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", params path.tag.nloop, path.tag.eop, path.tag.flg);
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", path.tag.nloop, path.tag.eop, path.tag.flg);
size = 0x400;
pMem -= 0x4000;
path1loop = true;
@ -405,7 +405,7 @@ __forceinline int mtgsThreadObject::_gifTransferDummy( GIF_PATH pathidx, const u
/*else if(size == 0 && pathidx == 0)
{
if(path1loop == true) return size - 0x400;
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", params path.tag.nloop, path.tag.eop, path.tag.flg);
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", path.tag.nloop, path.tag.eop, path.tag.flg);
size = 0x400;
pMem -= 0x4000;
path1loop = true;
@ -414,7 +414,7 @@ __forceinline int mtgsThreadObject::_gifTransferDummy( GIF_PATH pathidx, const u
/*else if(size == 0 && pathidx == 0)
{
if(path1loop == true) return size - 0x400;
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", params path.tag.nloop, path.tag.eop, path.tag.flg);
//DevCon::Notice("Looping Nloop %x, Eop %x, FLG %x", path.tag.nloop, path.tag.eop, path.tag.flg);
size = 0x400;
pMem -= 0x4000;
path1loop = true;
@ -471,7 +471,7 @@ void mtgsThreadObject::PostVsyncEnd( bool updategs )
if( m_WritePos == volatize( m_RingPos ) )
{
// MTGS ringbuffer is empty, but we still have queued frames in the counter? Ouch!
Console::Error( "MTGS > Queued framecount mismatch = %d", params m_QueuedFrames );
Console::Error( "MTGS > Queued framecount mismatch = %d", m_QueuedFrames );
m_QueuedFrames = 0;
break;
}
@ -536,7 +536,7 @@ void mtgsThreadObject::_RingbufferLoop()
uptr stackpos = ringposStack.back();
if( stackpos != m_RingPos )
{
Console::Error( "MTGS Ringbuffer Critical Failure ---> %x to %x (prevCmd: %x)\n", params stackpos, m_RingPos, prevCmd.command );
Console::Error( "MTGS Ringbuffer Critical Failure ---> %x to %x (prevCmd: %x)\n", stackpos, m_RingPos, prevCmd.command );
}
wxASSERT( stackpos == m_RingPos );
prevCmd = tag;
@ -668,7 +668,7 @@ void mtgsThreadObject::_RingbufferLoop()
#ifdef PCSX2_DEVBUILD
default:
Console::Error("GSThreadProc, bad packet (%x) at m_RingPos: %x, m_WritePos: %x", params tag.command, m_RingPos, m_WritePos);
Console::Error("GSThreadProc, bad packet (%x) at m_RingPos: %x, m_WritePos: %x", tag.command, m_RingPos, m_WritePos);
wxASSERT_MSG( false, L"Bad packet encountered in the MTGS Ringbuffer." );
m_RingPos = m_WritePos;
continue;
@ -696,7 +696,7 @@ sptr mtgsThreadObject::ExecuteTask()
Console::WriteLn( (wxString)L"\t\tForced software switch: " + (renderswitch ? L"Enabled" : L"Disabled") );
m_returncode = GSopen( (void*)&pDsp, "PCSX2", renderswitch ? 2 : 1 );
DevCon::WriteLn( "MTGS: GSopen Finished, return code: 0x%x", params m_returncode );
DevCon::WriteLn( "MTGS: GSopen Finished, return code: 0x%x", m_returncode );
GSCSRr = 0x551B4000; // 0x55190000
m_sem_InitDone.Post();
@ -915,7 +915,7 @@ int mtgsThreadObject::PrepDataPacket( GIF_PATH pathidx, const u8* srcdata, u32 s
gif->madr += (size - retval) * 16;
gif->qwc -= size - retval;
}
//if(retval < 0) DevCon::Notice("Increasing size from %x to %x path %x", params size, size-retval, pathidx+1);
//if(retval < 0) DevCon::Notice("Increasing size from %x to %x path %x", size, size-retval, pathidx+1);
size = size - retval;
m_packet_size = size;
size++; // takes into account our command qword.

View File

@ -221,7 +221,7 @@ mem8_t __fastcall _ext_memRead8 (u32 mem)
case 7: // dev9
{
mem8_t retval = DEV9read8(mem & ~0xa4000000);
Console::WriteLn("DEV9 read8 %8.8lx: %2.2lx", params mem & ~0xa4000000, retval);
Console::WriteLn("DEV9 read8 %8.8lx: %2.2lx", mem & ~0xa4000000, retval);
return retval;
}
}
@ -251,7 +251,7 @@ mem16_t __fastcall _ext_memRead16(u32 mem)
case 7: // dev9
{
mem16_t retval = DEV9read16(mem & ~0xa4000000);
Console::WriteLn("DEV9 read16 %8.8lx: %4.4lx", params mem & ~0xa4000000, retval);
Console::WriteLn("DEV9 read16 %8.8lx: %4.4lx", mem & ~0xa4000000, retval);
return retval;
}
@ -273,7 +273,7 @@ mem32_t __fastcall _ext_memRead32(u32 mem)
case 7: // dev9
{
mem32_t retval = DEV9read32(mem & ~0xa4000000);
Console::WriteLn("DEV9 read32 %8.8lx: %8.8lx", params mem & ~0xa4000000, retval);
Console::WriteLn("DEV9 read32 %8.8lx: %8.8lx", mem & ~0xa4000000, retval);
return retval;
}
}
@ -325,7 +325,7 @@ void __fastcall _ext_memWrite8 (u32 mem, mem8_t value)
gsWrite8(mem, value); return;
case 7: // dev9
DEV9write8(mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write8 %8.8lx: %2.2lx", params mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write8 %8.8lx: %2.2lx", mem & ~0xa4000000, value);
return;
}
@ -348,7 +348,7 @@ void __fastcall _ext_memWrite16(u32 mem, mem16_t value)
gsWrite16(mem, value); return;
case 7: // dev9
DEV9write16(mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write16 %8.8lx: %4.4lx", params mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write16 %8.8lx: %4.4lx", mem & ~0xa4000000, value);
return;
case 8: // spu2
SPU2write(mem, value); return;
@ -365,7 +365,7 @@ void __fastcall _ext_memWrite32(u32 mem, mem32_t value)
gsWrite32(mem, value); return;
case 7: // dev9
DEV9write32(mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write32 %8.8lx: %8.8lx", params mem & ~0xa4000000, value);
Console::WriteLn("DEV9 write32 %8.8lx: %8.8lx", mem & ~0xa4000000, value);
return;
}
MEM_LOG("Unknown Memory write32 to address %x with data %8.8x", mem, value);
@ -549,7 +549,7 @@ void __fastcall vuMicroWrite128(u32 addr,const mem128_t* data)
void memSetPageAddr(u32 vaddr, u32 paddr)
{
//Console::WriteLn("memSetPageAddr: %8.8x -> %8.8x", params vaddr, paddr);
//Console::WriteLn("memSetPageAddr: %8.8x -> %8.8x", vaddr, paddr);
vtlb_VMap(vaddr,paddr,0x1000);
@ -557,7 +557,7 @@ void memSetPageAddr(u32 vaddr, u32 paddr)
void memClearPageAddr(u32 vaddr)
{
//Console::WriteLn("memClearPageAddr: %8.8x", params vaddr);
//Console::WriteLn("memClearPageAddr: %8.8x", vaddr);
vtlb_VMapUnmap(vaddr,0x1000); // -> whut ?
@ -854,9 +854,9 @@ void mmap_MarkCountedRamPage( u32 paddr )
return; // skip town if we're already protected.
if( m_PageProtectInfo[rampage].Mode == ProtMode_Manual )
DbgCon::WriteLn( "dyna_page_reset @ 0x%05x", params paddr>>12 );
DbgCon::WriteLn( "dyna_page_reset @ 0x%05x", paddr>>12 );
else
DbgCon::WriteLn( "Write-protected page @ 0x%05x", params paddr>>12 );
DbgCon::WriteLn( "Write-protected page @ 0x%05x", paddr>>12 );
m_PageProtectInfo[rampage].Mode = ProtMode_Write;
HostSys::MemProtect( &psM[rampage<<12], 1, Protect_ReadOnly );
@ -874,7 +874,7 @@ void mmap_ClearCpuBlock( uint offset )
jASSUME( m_PageProtectInfo[rampage].Mode != ProtMode_Manual );
//#ifndef __LINUX__ // this function is called from the signal handler
//DbgCon::WriteLn( "Manual page @ 0x%05x", params m_PageProtectInfo[rampage].ReverseRamMap>>12 );
//DbgCon::WriteLn( "Manual page @ 0x%05x", m_PageProtectInfo[rampage].ReverseRamMap>>12 );
//#endif
HostSys::MemProtect( &psM[rampage<<12], 1, Protect_ReadWrite );

View File

@ -439,7 +439,7 @@ void applypatch(int place)
{
int i;
if (place == 0) Console::WriteLn(" patchnumber: %d", params patchnumber);
if (place == 0) Console::WriteLn(" patchnumber: %d", patchnumber);
for ( i = 0; i < patchnumber; i++ )
{
@ -449,13 +449,13 @@ void applypatch(int place)
void patchFunc_comment( char * text1, char * text2 )
{
Console::WriteLn( "comment: %s", params text2 );
Console::WriteLn( "comment: %s", text2 );
}
void patchFunc_gametitle( char * text1, char * text2 )
{
Console::WriteLn( "gametitle: %s", params text2 );
Console::WriteLn( "gametitle: %s", text2 );
strgametitle.FromAscii( text2 );
Console::SetTitle( strgametitle );
}
@ -468,7 +468,7 @@ void patchFunc_patch( char * cmd, char * param )
{
// TODO : Use wxLogError for this, once we have full unicode compliance on cmd/params vars.
//wxLogError( L"Patch ERROR: Maximum number of patches reached: %s=%s", cmd, param );
Console::Error( "Patch ERROR: Maximum number of patches reached: %s=%s", params cmd, param );
Console::Error( "Patch ERROR: Maximum number of patches reached: %s=%s", cmd, param );
return;
}
@ -485,7 +485,7 @@ void patchFunc_patch( char * cmd, char * param )
patch[ patchnumber ].cpu = (patch_cpu_type)PatchTableExecute( pText, NULL, cpuCore );
if ( patch[ patchnumber ].cpu == 0 )
{
Console::Error( "Unrecognized patch '%s'", params pText );
Console::Error( "Unrecognized patch '%s'", pText );
return;
}
@ -498,7 +498,7 @@ void patchFunc_patch( char * cmd, char * param )
patch[ patchnumber ].type = (patch_data_type)PatchTableExecute( pText, NULL, dataType );
if ( patch[ patchnumber ].type == 0 )
{
Console::Error( "Unrecognized patch '%s'", params pText );
Console::Error( "Unrecognized patch '%s'", pText );
return;
}
@ -725,7 +725,7 @@ void patchFunc_roundmode( char * cmd, char * param )
if( type == 0xffff )
{
Console::WriteLn("bad argument (%s) to round mode! skipping...\n", params pText);
Console::WriteLn("bad argument (%s) to round mode! skipping...\n", pText);
break;
}

View File

@ -584,7 +584,7 @@ PluginManager::PluginManager( const wxString (&folders)[PluginId_Count] )
{
const PluginsEnum_t pid = pi->id;
Console::WriteLn( "\tBinding %s\t: %s ", params tbl_PluginInfo[pid].shortname, folders[pid].ToUTF8().data() );
Console::WriteLn( "\tBinding %s\t: %s ", tbl_PluginInfo[pid].shortname, folders[pid].ToUTF8().data() );
if( folders[pid].IsEmpty() )
throw Exception::InvalidArgument( "Empty plugin filename." );
@ -771,7 +771,7 @@ void PluginManager::Open( PluginsEnum_t pid )
{
if( m_info[pid].IsOpened ) return;
Console::WriteLn( "\tOpening %s", params tbl_PluginInfo[pid].shortname );
Console::WriteLn( "\tOpening %s", tbl_PluginInfo[pid].shortname );
// Each Open needs to be called explicitly. >_<
@ -807,7 +807,7 @@ void PluginManager::Open()
void PluginManager::Close( PluginsEnum_t pid )
{
if( !m_info[pid].IsOpened ) return;
DevCon::Status( "\tClosing %s", params tbl_PluginInfo[pid].shortname );
DevCon::Status( "\tClosing %s", tbl_PluginInfo[pid].shortname );
if( pid == PluginId_GS )
{
@ -862,7 +862,7 @@ void PluginManager::Init()
Console::Status( "Initializing plugins..." );
printlog = true;
}
Console::WriteLn( "\tInit %s", params tbl_PluginInfo[pid].shortname );
Console::WriteLn( "\tInit %s", tbl_PluginInfo[pid].shortname );
m_info[pid].IsInitialized = true;
if( 0 != m_info[pid].CommonBindings.Init() )
throw Exception::PluginInitError( pid );
@ -889,7 +889,7 @@ void PluginManager::Shutdown()
{
const PluginsEnum_t pid = tbl_PluginInfo[i].id;
if( !m_info[pid].IsInitialized ) continue;
DevCon::WriteLn( "\tShutdown %s", params tbl_PluginInfo[pid].shortname );
DevCon::WriteLn( "\tShutdown %s", tbl_PluginInfo[pid].shortname );
m_info[pid].IsInitialized = false;
m_info[pid].CommonBindings.Shutdown();
}

View File

@ -74,7 +74,7 @@ void psxShutdown() {
void psxException(u32 code, u32 bd) {
// PSXCPU_LOG("psxException %x: %x, %x", code, psxHu32(0x1070), psxHu32(0x1074));
//Console::WriteLn("!! psxException %x: %x, %x", params code, psxHu32(0x1070), psxHu32(0x1074));
//Console::WriteLn("!! psxException %x: %x, %x", code, psxHu32(0x1070), psxHu32(0x1074));
// Set the Cause
psxRegs.CP0.n.Cause &= ~0x7f;
psxRegs.CP0.n.Cause |= code;
@ -268,7 +268,7 @@ void iopTestIntc()
cpuSetNextBranchDelta( 16 );
iopBranchAction = true;
//Console::Error( "** IOP Needs an EE EventText, kthx ** %d", params psxCycleEE );
//Console::Error( "** IOP Needs an EE EventText, kthx ** %d", psxCycleEE );
// Note: No need to set the iop's branch delta here, since the EE
// will run an IOP branch test regardless.

View File

@ -260,15 +260,15 @@ void zeroEx()
}
if (!strncmp(lib, "loadcore", 8) && code == 6) {
DevCon::WriteLn("loadcore RegisterLibraryEntries (%x): %8.8s", params psxRegs.pc, iopVirtMemR<char>(psxRegs.GPR.n.a0+12));
DevCon::WriteLn("loadcore RegisterLibraryEntries (%x): %8.8s", psxRegs.pc, iopVirtMemR<char>(psxRegs.GPR.n.a0+12));
}
if (!strncmp(lib, "intrman", 7) && code == 4) {
DevCon::WriteLn("intrman RegisterIntrHandler (%x): intr %s, handler %x", params psxRegs.pc, intrname[psxRegs.GPR.n.a0], psxRegs.GPR.n.a2);
DevCon::WriteLn("intrman RegisterIntrHandler (%x): intr %s, handler %x", psxRegs.pc, intrname[psxRegs.GPR.n.a0], psxRegs.GPR.n.a2);
}
if (!strncmp(lib, "sifcmd", 6) && code == 17) {
DevCon::WriteLn("sifcmd sceSifRegisterRpc (%x): rpc_id %x", params psxRegs.pc, psxRegs.GPR.n.a1);
DevCon::WriteLn("sifcmd sceSifRegisterRpc (%x): rpc_id %x", psxRegs.pc, psxRegs.GPR.n.a1);
}
if (!strncmp(lib, "sysclib", 8))

View File

@ -303,7 +303,7 @@ void psxCTC0() { _rFs_ = _u32(_rRt_); }
* Format: ? *
*********************************************************/
void psxNULL() {
Console::Notice("psx: Unimplemented op %x", params psxRegs.code);
Console::Notice("psx: Unimplemented op %x", psxRegs.code);
}
void psxSPECIAL() {

View File

@ -129,7 +129,7 @@ __releaseinline void cpuException(u32 code, u32 bd)
else if((code & 0x38000) == 0x18000)
offset = 0x100; //Debug
else
Console::Error("Unknown Level 2 Exception!! Cause %x", params code);
Console::Error("Unknown Level 2 Exception!! Cause %x", code);
}
if (cpuRegs.CP0.n.Status.b.EXL == 0)
@ -150,7 +150,7 @@ __releaseinline void cpuException(u32 code, u32 bd)
else
{
offset = 0x180; //Override the cause
if (errLevel2) Console::Notice("cpuException: Status.EXL = 1 cause %x", params code);
if (errLevel2) Console::Notice("cpuException: Status.EXL = 1 cause %x", code);
}
if (checkStatus)
@ -164,7 +164,7 @@ __releaseinline void cpuException(u32 code, u32 bd)
void cpuTlbMiss(u32 addr, u32 bd, u32 excode)
{
Console::Error("cpuTlbMiss pc:%x, cycl:%x, addr: %x, status=%x, code=%x",
params cpuRegs.pc, cpuRegs.cycle, addr, cpuRegs.CP0.n.Status.val, excode);
cpuRegs.pc, cpuRegs.cycle, addr, cpuRegs.CP0.n.Status.val, excode);
if (bd) Console::Notice("branch delay!!");
@ -321,7 +321,7 @@ static __forceinline void _cpuTestTIMR()
if ( (cpuRegs.CP0.n.Status.val & 0x8000) &&
cpuRegs.CP0.n.Count >= cpuRegs.CP0.n.Compare && cpuRegs.CP0.n.Count < cpuRegs.CP0.n.Compare+1000 )
{
Console::Status("timr intr: %x, %x", params cpuRegs.CP0.n.Count, cpuRegs.CP0.n.Compare);
Console::Status("timr intr: %x, %x", cpuRegs.CP0.n.Count, cpuRegs.CP0.n.Compare);
cpuException(0x808000, cpuRegs.branch);
}
}
@ -398,7 +398,7 @@ __forceinline void _cpuBranchTest_Shared()
if( iopBranchAction )
{
//if( EEsCycle < -450 )
// Console::WriteLn( " IOP ahead by: %d cycles", params -EEsCycle );
// Console::WriteLn( " IOP ahead by: %d cycles", -EEsCycle );
// Experimental and Probably Unnecessry Logic -->
// Check if the EE already has an exception pending, and if so we shouldn't
@ -422,7 +422,7 @@ __forceinline void _cpuBranchTest_Shared()
int cycleCount = std::min( EEsCycle, (s32)(eeWaitCycles>>4) );
int cyclesRun = cycleCount - psxCpu->ExecuteBlock( cycleCount );
EEsCycle -= cyclesRun;
//Console::Notice( "IOP Exception-Pending Execution -- EEsCycle: %d", params EEsCycle );
//Console::Notice( "IOP Exception-Pending Execution -- EEsCycle: %d", EEsCycle );
}
else*/
{
@ -458,7 +458,7 @@ __forceinline void _cpuBranchTest_Shared()
// IOP extra timeslices in short order.
cpuSetNextBranchDelta( 48 );
//Console::Notice( "EE ahead of the IOP -- Rapid Branch! %d", params EEsCycle );
//Console::Notice( "EE ahead of the IOP -- Rapid Branch! %d", EEsCycle );
}
// The IOP could be running ahead/behind of us, so adjust the iop's next branch by its

View File

@ -782,7 +782,7 @@ int __Deci2Call(int call, u32 *addr)
deci2addr[3], deci2addr[2], deci2addr[1], deci2addr[0]);
// cpuRegs.pc = deci2handler;
// Console::WriteLn("deci2msg: %s", params (char*)PSM(deci2addr[4]+0xc));
// Console::WriteLn("deci2msg: %s", (char*)PSM(deci2addr[4]+0xc));
if (deci2addr == NULL) return 1;
if (deci2addr[1]>0xc){
u8* pdeciaddr = (u8*)dmaGetAddr(deci2addr[4]+0xc);
@ -811,7 +811,7 @@ int __Deci2Call(int call, u32 *addr)
case 0x10://kputs
if( addr != NULL )
Console::Write( Color_Cyan, "%s", params PSM(*addr));
Console::Write( Color_Cyan, "%s", PSM(*addr));
return 1;
}

View File

@ -142,7 +142,7 @@ static __forceinline void _dmaSPR0()
{
if (dmacRegs->ctrl.STS == STS_fromSPR) // STS == fromSPR
{
Console::WriteLn("SPR0 stall %d", params(psHu32(DMAC_CTRL) >> 6)&3);
Console::WriteLn("SPR0 stall %d", (psHu32(DMAC_CTRL) >> 6)&3);
}
// Transfer Dn_QWC from SPR to Dn_MADR
@ -237,7 +237,7 @@ void SPRFROMinterrupt()
{
if ((spr0->madr & ~psHu32(DMAC_RBSR)) != psHu32(DMAC_RBOR)) Console::WriteLn("GIF MFIFO Write outside MFIFO area");
spr0->madr = psHu32(DMAC_RBOR) + (spr0->madr & psHu32(DMAC_RBSR));
//Console::WriteLn("mfifoGIFtransfer %x madr %x, tadr %x", params gif->chcr._u32, gif->madr, gif->tadr);
//Console::WriteLn("mfifoGIFtransfer %x madr %x, tadr %x", gif->chcr._u32, gif->madr, gif->tadr);
mfifoGIFtransfer(mfifotransferred);
mfifotransferred = 0;
if (gif->chcr.STR) return;
@ -247,7 +247,7 @@ void SPRFROMinterrupt()
{
if ((spr0->madr & ~psHu32(DMAC_RBSR)) != psHu32(DMAC_RBOR)) Console::WriteLn("VIF MFIFO Write outside MFIFO area");
spr0->madr = psHu32(DMAC_RBOR) + (spr0->madr & psHu32(DMAC_RBSR));
//Console::WriteLn("mfifoVIF1transfer %x madr %x, tadr %x", params vif1ch->chcr._u32, vif1ch->madr, vif1ch->tadr);
//Console::WriteLn("mfifoVIF1transfer %x madr %x, tadr %x", vif1ch->chcr._u32, vif1ch->madr, vif1ch->tadr);
mfifoVIF1transfer(mfifotransferred);
mfifotransferred = 0;
if (vif1ch->chcr.STR) return;

View File

@ -61,7 +61,7 @@ SaveState::SaveState( const char* msg, const wxString& destination ) :
m_version( g_SaveVersion )
, m_tagspace( 128 )
{
Console::WriteLn( "%s %s", params msg, destination.ToAscii().data() );
Console::WriteLn( "%s %s", msg, destination.ToAscii().data() );
}
s32 CALLBACK gsSafeFreeze( int mode, freezeData *data )
@ -111,7 +111,7 @@ void SaveState::FreezeAll()
"\n\tWarning: BIOS Version Mismatch, savestate may be unstable!\n"
"\t\tCurrent BIOS: %s\n"
"\t\tSavestate BIOS: %s\n",
params descout.ToAscii().data(), descin
descout.ToAscii().data(), descin
);
}
@ -249,7 +249,7 @@ void gzLoadingState::FreezeMem( void* data, int size )
void gzSavingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int mode, freezeData *data) )
{
freezeData fP = { 0, NULL };
Console::WriteLn( "\tSaving %s", params name );
Console::WriteLn( "\tSaving %s", name );
FreezeTag( name );
@ -271,7 +271,7 @@ void gzSavingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int
void gzLoadingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int mode, freezeData *data) )
{
freezeData fP = { 0, NULL };
Console::WriteLn( "\tLoading %s", params name );
Console::WriteLn( "\tLoading %s", name );
FreezeTag( name );
Freeze( fP.size );
@ -338,7 +338,7 @@ void memLoadingState::FreezeMem( void* data, int size )
void memSavingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int mode, freezeData *data) )
{
freezeData fP = { 0, NULL };
Console::WriteLn( "\tSaving %s", params name );
Console::WriteLn( "\tSaving %s", name );
if( freezer(FREEZE_SIZE, &fP) == -1 )
throw Exception::FreezePluginFailure( name, "saving" );
@ -359,7 +359,7 @@ void memSavingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int
void memLoadingState::FreezePlugin( const char* name, s32 (CALLBACK *freezer)(int mode, freezeData *data) )
{
freezeData fP;
Console::WriteLn( "\tLoading %s", params name );
Console::WriteLn( "\tLoading %s", name );
Freeze( fP.size );
if( fP.size == 0 ) return;

View File

@ -55,13 +55,13 @@ void SysDetect()
#ifdef __LINUX__
// Haven't rigged up getting the svn version yet... --arcum42
Notice("PCSX2 %d.%d.%d - compiled on " __DATE__, params PCSX2_VersionHi, PCSX2_VersionMid, PCSX2_VersionLo);
Notice("PCSX2 %d.%d.%d - compiled on " __DATE__, PCSX2_VersionHi, PCSX2_VersionMid, PCSX2_VersionLo);
#else
Notice("PCSX2 %d.%d.%d.r%d %s - compiled on " __DATE__, params PCSX2_VersionHi, PCSX2_VersionMid, PCSX2_VersionLo,
Notice("PCSX2 %d.%d.%d.r%d %s - compiled on " __DATE__, PCSX2_VersionHi, PCSX2_VersionMid, PCSX2_VersionLo,
SVN_REV, SVN_MODS ? "(modded)" : ""
);
#endif
Notice("Savestate version: %x", params g_SaveVersion);
Notice("Savestate version: %x", g_SaveVersion);
cpudetectInit();
@ -94,7 +94,7 @@ void SysDetect()
"\t%sDetected SSE3\n"
"\t%sDetected SSSE3\n"
"\t%sDetected SSE4.1\n"
"\t%sDetected SSE4.2\n", params
"\t%sDetected SSE4.2\n",
x86caps.hasMultimediaExtensions ? "" : "Not ",
x86caps.hasStreamingSIMDExtensions ? "" : "Not ",
x86caps.hasStreamingSIMD2Extensions ? "" : "Not ",
@ -111,7 +111,7 @@ void SysDetect()
"\t%sDetected MMX2\n"
"\t%sDetected 3DNOW\n"
"\t%sDetected 3DNOW2\n"
"\t%sDetected SSE4a\n", params
"\t%sDetected SSE4a\n",
x86caps.hasMultimediaExtensionsExt ? "" : "Not ",
x86caps.has3DNOWInstructionExtensions ? "" : "Not ",
x86caps.has3DNOWInstructionExtensionsExt ? "" : "Not ",
@ -143,7 +143,7 @@ bool SysAllocateMem()
// Failures on the core initialization of memory is bad, since it means the emulator is
// completely non-functional.
//Msgbox::Alert( "Failed to allocate memory needed to run pcsx2.\n\nError: %s", params ex.cMessage() );
//Msgbox::Alert( "Failed to allocate memory needed to run pcsx2.\n\nError: %s", ex.cMessage() );
SysShutdownMem();
return false;
}
@ -384,7 +384,7 @@ u8 *SysMmapEx(uptr base, u32 size, uptr bounds, const char *caller)
if( (Mem == NULL) || (bounds != 0 && (((uptr)Mem + size) > bounds)) )
{
DevCon::Notice( "First try failed allocating %s at address 0x%x", params caller, base );
DevCon::Notice( "First try failed allocating %s at address 0x%x", caller, base );
// memory allocation *must* have the top bit clear, so let's try again
// with NULL (let the OS pick something for us).
@ -394,7 +394,7 @@ u8 *SysMmapEx(uptr base, u32 size, uptr bounds, const char *caller)
Mem = (u8*)HostSys::Mmap( NULL, size );
if( bounds != 0 && (((uptr)Mem + size) > bounds) )
{
DevCon::Error( "Fatal Error:\n\tSecond try failed allocating %s, block ptr 0x%x does not meet required criteria.", params caller, Mem );
DevCon::Error( "Fatal Error:\n\tSecond try failed allocating %s, block ptr 0x%x does not meet required criteria.", caller, Mem );
SafeSysMunmap( Mem, size );
// returns NULL, caller should throw an exception.

View File

@ -120,7 +120,7 @@ namespace Tag
{
if (ptag == NULL) // Is ptag empty?
{
Console::Error("%s BUSERR", params s);
Console::Error("%s BUSERR", s);
UpperTransfer(tag, ptag);
// Set BEIS (BUSERR) in DMAC_STAT register
@ -140,7 +140,7 @@ namespace Tag
{
if (ptag == NULL) // Is ptag empty?
{
Console::Error("%s BUSERR", params s);
Console::Error("%s BUSERR", s);
// Set BEIS (BUSERR) in DMAC_STAT register
psHu32(DMAC_STAT) |= DMAC_STAT_BEIS;
@ -199,7 +199,7 @@ static __forceinline void PrintCHCR(const char* s, DMACh *tag)
u8 num_addr = tag->chcr.ASP;
u32 mode = tag->chcr.MOD;
Console::Write("%s chcr %s mem: ", params s, (tag->chcr.DIR) ? "from" : "to");
Console::Write("%s chcr %s mem: ", s, (tag->chcr.DIR) ? "from" : "to");
if (mode == NORMAL_MODE)
Console::Write(" normal mode; ");
@ -210,7 +210,7 @@ static __forceinline void PrintCHCR(const char* s, DMACh *tag)
else
Console::Write(" ?? mode; ");
if (num_addr != 0) Console::Write("ASP = %d;", params num_addr);
if (num_addr != 0) Console::Write("ASP = %d;", num_addr);
if (tag->chcr.TTE) Console::Write("TTE;");
if (tag->chcr.TIE) Console::Write("TIE;");
if (tag->chcr.STR) Console::Write(" (DMA started)."); else Console::Write(" (DMA stopped).");

View File

@ -54,7 +54,7 @@ static void _vu0Exec(VURegs* VU)
if(VU0.VI[REG_TPC].UL >= VU0.maxmicro){
#ifdef CPU_LOG
Console::WriteLn("VU0 memory overflow!!: %x", params VU->VI[REG_TPC].UL);
Console::WriteLn("VU0 memory overflow!!: %x", VU->VI[REG_TPC].UL);
#endif
VU0.VI[REG_VPU_STAT].UL&= ~0x1;
VU->cycle++;
@ -113,7 +113,7 @@ static void _vu0Exec(VURegs* VU)
}
if (lregs.VFread0 == uregs.VFwrite ||
lregs.VFread1 == uregs.VFwrite) {
// Console::WriteLn("saving reg %d at pc=%x", params i, VU->VI[REG_TPC].UL);
// Console::WriteLn("saving reg %d at pc=%x", i, VU->VI[REG_TPC].UL);
_VF = VU->VF[uregs.VFwrite];
vfreg = uregs.VFwrite;
}
@ -178,7 +178,7 @@ void vu0Exec(VURegs* VU)
{
if (VU->VI[REG_TPC].UL >= VU->maxmicro) {
#ifdef CPU_LOG
Console::Notice("VU0 memory overflow!!: %x", params VU->VI[REG_TPC].UL);
Console::Notice("VU0 memory overflow!!: %x", VU->VI[REG_TPC].UL);
#endif
VU0.VI[REG_VPU_STAT].UL&= ~0x1;
} else {

View File

@ -109,7 +109,7 @@ static void _vu1Exec(VURegs* VU)
}
if (lregs.VFread0 == uregs.VFwrite ||
lregs.VFread1 == uregs.VFwrite) {
// Console::WriteLn("saving reg %d at pc=%x", params i, VU->VI[REG_TPC].UL);
// Console::WriteLn("saving reg %d at pc=%x", i, VU->VI[REG_TPC].UL);
_VF = VU->VF[uregs.VFwrite];
vfreg = uregs.VFwrite;
}

View File

@ -182,7 +182,7 @@ void _vuFMACAdd(VURegs * VU, int reg, int xyzw) {
if (VU->fmac[i].enable == 1) continue;
break;
}
//if (i==8) Console::Error("*PCSX2*: error , out of fmacs %d", params VU->cycle);
//if (i==8) Console::Error("*PCSX2*: error , out of fmacs %d", VU->cycle);
VUM_LOG("adding FMAC pipe[%d]; xyzw=%x", i, xyzw);
@ -2062,7 +2062,7 @@ void _vuXGKICK(VURegs * VU)
memcpy(&tempmem[temp], ptr, ((VU->VI[_Is_].US[0]*16) & 0x3fff));
GSGIFTRANSFER1((u32*)&tempmem[0], 0);
} else*/
//DevCon::Notice("Addr %x", params VU->VI[_Is_].US[0] & 0x3fff);
//DevCon::Notice("Addr %x", VU->VI[_Is_].US[0] & 0x3fff);
u32* data = (u32*)((u8*)VU->Mem + ((VU->VI[_Is_].US[0]*16) & 0x3fff));
u32 size;
@ -2072,10 +2072,10 @@ void _vuXGKICK(VURegs * VU)
/* if((size << 4) > (u32)(0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff)))
{
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", params ((VU->VI[_Is_].US[0]*16) & 0x3fff) + (size << 4), (0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff)) >> 4, size - (0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff) >> 4));
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", ((VU->VI[_Is_].US[0]*16) & 0x3fff) + (size << 4), (0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff)) >> 4, size - (0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff) >> 4));
memcpy_aligned(pmem, (u8*)VU->Mem+((VU->VI[_Is_].US[0]*16) & 0x3fff), 0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff));
size -= (0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff)) >> 4;
//DevCon::Notice("Size left %x", params size);
//DevCon::Notice("Size left %x", size);
pmem += 0x4000-((VU->VI[_Is_].US[0]*16) & 0x3fff);
memcpy_aligned(pmem, (u8*)VU->Mem, size<<4);
}

View File

@ -495,7 +495,7 @@ void mfifoVIF1transfer(int qwc)
int temp = vif1ch->madr; //Temporarily Store ADDR
vif1ch->madr = psHu32(DMAC_RBOR) + ((vif1ch->tadr + 16) & psHu32(DMAC_RBSR)); //Set MADR to QW following the tag
vif1ch->tadr = temp; //Copy temporarily stored ADDR to Tag
if ((temp & psHu32(DMAC_RBSR)) != psHu32(DMAC_RBOR)) Console::WriteLn("Next tag = %x outside ring %x size %x", params temp, psHu32(DMAC_RBOR), psHu32(DMAC_RBSR));
if ((temp & psHu32(DMAC_RBSR)) != psHu32(DMAC_RBOR)) Console::WriteLn("Next tag = %x outside ring %x size %x", temp, psHu32(DMAC_RBOR), psHu32(DMAC_RBSR));
vif1.done = false;
break;
}

View File

@ -311,7 +311,7 @@ static void ProcessMemSkip(int size, unsigned int unpackType, const unsigned int
VIFUNPACK_LOG("Processing V4-5 skip, size = %d", size);
break;
default:
Console::WriteLn("Invalid unpack type %x", params unpackType);
Console::WriteLn("Invalid unpack type %x", unpackType);
break;
}
@ -399,9 +399,9 @@ static int VIFalign(u32 *data, vifCode *v, unsigned int size, const unsigned int
if (((u32)size / (u32)ft->dsize) < ((u32)ft->qsize - vifRegs->offset))
{
DevCon::Error("Wasn't enough left size/dsize = %x left to write %x", params(size / ft->dsize), (ft->qsize - vifRegs->offset));
DevCon::Error("Wasn't enough left size/dsize = %x left to write %x", (size / ft->dsize), (ft->qsize - vifRegs->offset));
}
unpacksize = min((size / ft->dsize), (ft->qsize - vifRegs->offset));
unpacksize = min((size / ft->dsize), (ft->qsize - vifRegs->offset));
VIFUNPACK_LOG("Increasing dest by %x from offset %x", (4 - ft->qsize) + unpacksize, vifRegs->offset);
@ -416,7 +416,7 @@ static int VIFalign(u32 *data, vifCode *v, unsigned int size, const unsigned int
}
else
{
DevCon::Notice("Offset = %x", params vifRegs->offset);
DevCon::Notice("Offset = %x", vifRegs->offset);
vif->tag.addr += unpacksize * 4;
return size>>2;
}
@ -636,7 +636,7 @@ static void VIFunpack(u32 *data, vifCode *v, unsigned int size, const unsigned i
}
else
{
//DevCon::Notice("VIF%x Unpack ending %x > %x", params VIFdmanum, tempsize, VIFdmanum ? 0x4000 : 0x1000);
//DevCon::Notice("VIF%x Unpack ending %x > %x", VIFdmanum, tempsize, VIFdmanum ? 0x4000 : 0x1000);
tempsize = size;
size = 0;
}
@ -822,9 +822,9 @@ static void VIFunpack(u32 *data, vifCode *v, unsigned int size, const unsigned i
if(vifRegs->cycle.cl > 0) // Quicker and avoids zero division :P
if((u32)(((size / ft->gsize) / vifRegs->cycle.cl) * vifRegs->cycle.wl) < vifRegs->num)
DevCon::Notice("Filling write warning! %x < %x and CL = %x WL = %x", params (size / ft->gsize), vifRegs->num, vifRegs->cycle.cl, vifRegs->cycle.wl);
DevCon::Notice("Filling write warning! %x < %x and CL = %x WL = %x", (size / ft->gsize), vifRegs->num, vifRegs->cycle.cl, vifRegs->cycle.wl);
//DevCon::Notice("filling write %d cl %d, wl %d mask %x mode %x unpacktype %x addr %x", params vifRegs->num, vifRegs->cycle.cl, vifRegs->cycle.wl, vifRegs->mask, vifRegs->mode, unpackType, vif->tag.addr);
//DevCon::Notice("filling write %d cl %d, wl %d mask %x mode %x unpacktype %x addr %x", vifRegs->num, vifRegs->cycle.cl, vifRegs->cycle.wl, vifRegs->mask, vifRegs->mode, unpackType, vif->tag.addr);
while (vifRegs->num > 0)
{
if (vif->cl == vifRegs->cycle.wl)
@ -881,7 +881,7 @@ static void vuExecMicro(u32 addr, const u32 VIFdmanum)
}
if (VU->vifRegs->itops > (VIFdmanum ? 0x3ffu : 0xffu))
Console::WriteLn("VIF%d ITOP overrun! %x", params VIFdmanum, VU->vifRegs->itops);
Console::WriteLn("VIF%d ITOP overrun! %x", VIFdmanum, VU->vifRegs->itops);
VU->vifRegs->itop = VU->vifRegs->itops;
@ -929,7 +929,7 @@ static __forceinline void vif0UNPACK(u32 *data)
if (vif0Regs->cycle.wl == 0 && vif0Regs->cycle.wl < vif0Regs->cycle.cl)
{
Console::WriteLn("Vif0 CL %d, WL %d", params vif0Regs->cycle.cl, vif0Regs->cycle.wl);
Console::WriteLn("Vif0 CL %d, WL %d", vif0Regs->cycle.cl, vif0Regs->cycle.wl);
vif0.cmd &= ~0x7f;
return;
}
@ -963,7 +963,7 @@ static __forceinline void vif0UNPACK(u32 *data)
static __forceinline void vif0mpgTransfer(u32 addr, u32 *data, int size)
{
/* Console::WriteLn("vif0mpgTransfer addr=%x; size=%x", params addr, size);
/* Console::WriteLn("vif0mpgTransfer addr=%x; size=%x", addr, size);
{
FILE *f = fopen("vu1.raw", "wb");
fwrite(data, 1, size*4, f);
@ -983,7 +983,7 @@ static __forceinline void vif0mpgTransfer(u32 addr, u32 *data, int size)
static int __fastcall Vif0TransNull(u32 *data) // Shouldnt go here
{
Console::WriteLn("VIF0 Shouldnt go here CMD = %x", params vif0Regs->code);
Console::WriteLn("VIF0 Shouldnt go here CMD = %x", vif0Regs->code);
vif0.cmd = 0;
return 0;
}
@ -1225,7 +1225,7 @@ static void Vif0CMDNull() // invalid opcode
// if ME1, then force the vif to interrupt
if (!(vif0Regs->err.ME1)) //Ignore vifcode and tag mismatch error
{
Console::WriteLn("UNKNOWN VifCmd: %x", params vif0.cmd);
Console::WriteLn("UNKNOWN VifCmd: %x", vif0.cmd);
vif0Regs->stat |= VIF0_STAT_ER1;
vif0.irq++;
}
@ -1255,7 +1255,7 @@ int VIF0transfer(u32 *data, int size, int istag)
continue;
}
if (vif0.tag.size != 0) Console::WriteLn("no vif0 cmd but tag size is left last cmd read %x", params vif0Regs->code);
if (vif0.tag.size != 0) Console::WriteLn("no vif0 cmd but tag size is left last cmd read %x", vif0Regs->code);
// if interrupt and new cmd is NOT MARK
if (vif0.irq) break;
@ -1277,7 +1277,7 @@ int VIF0transfer(u32 *data, int size, int istag)
{
if (!(vif0Regs->err.ME1)) //Ignore vifcode and tag mismatch error
{
Console::WriteLn("UNKNOWN VifCmd: %x", params vif0.cmd);
Console::WriteLn("UNKNOWN VifCmd: %x", vif0.cmd);
vif0Regs->stat |= VIF0_STAT_ER1;
vif0.irq++;
}
@ -1329,7 +1329,7 @@ int VIF0transfer(u32 *data, int size, int istag)
vif0ch->madr += (transferred << 4);
vif0ch->qwc -= transferred;
}
//else Console::WriteLn("Stall on vif0, FromSPR = %x, Vif0MADR = %x Sif0MADR = %x STADR = %x", params psHu32(0x1000d010), vif0ch->madr, psHu32(0x1000c010), psHu32(DMAC_STADR));
//else Console::WriteLn("Stall on vif0, FromSPR = %x, Vif0MADR = %x Sif0MADR = %x STADR = %x", psHu32(0x1000d010), vif0ch->madr, psHu32(0x1000c010), psHu32(DMAC_STADR));
return -2;
}
@ -1443,7 +1443,7 @@ void vif0Interrupt()
}
}
if (!vif0ch->chcr.STR) Console::WriteLn("Vif0 running when CHCR = %x", params vif0ch->chcr._u32);
if (!vif0ch->chcr.STR) Console::WriteLn("Vif0 running when CHCR = %x", vif0ch->chcr._u32);
if ((vif0ch->chcr.MOD == CHAIN_MODE) && (!vif0.done) && (!vif0.vifstalled))
{
@ -1464,7 +1464,7 @@ void vif0Interrupt()
}
if (vif0ch->qwc > 0) Console::WriteLn("VIF0 Ending with QWC left");
if (vif0.cmd != 0) Console::WriteLn("vif0.cmd still set %x", params vif0.cmd);
if (vif0.cmd != 0) Console::WriteLn("vif0.cmd still set %x", vif0.cmd);
vif0ch->chcr.STR = 0;
hwDmacIrq(DMAC_VIF0);
@ -1522,7 +1522,7 @@ void dmaVIF0()
{
if (_VIF0chain() == -2)
{
Console::WriteLn("Stall on normal %x", params vif0Regs->stat);
Console::WriteLn("Stall on normal %x", vif0Regs->stat);
vif0.vifstalled = true;
return;
}
@ -1555,7 +1555,7 @@ void vif0Write32(u32 mem, u32 value)
if (value & 0x1)
{
/* Reset VIF */
//Console::WriteLn("Vif0 Reset %x", params vif0Regs->stat);
//Console::WriteLn("Vif0 Reset %x", vif0Regs->stat);
memzero_obj(vif0);
vif0ch->qwc = 0; //?
cpuRegs.interrupt &= ~1; //Stop all vif0 DMA's
@ -1641,7 +1641,7 @@ void vif0Write32(u32 mem, u32 value)
break;
default:
Console::WriteLn("Unknown Vif0 write to %x", params mem);
Console::WriteLn("Unknown Vif0 write to %x", mem);
psHu32(mem) = value;
break;
}
@ -1698,7 +1698,7 @@ static __forceinline void vif1UNPACK(u32 *data)
{
if (vif1Regs->cycle.wl < vif1Regs->cycle.cl)
{
Console::WriteLn("Vif1 CL %d, WL %d", params vif1Regs->cycle.cl, vif1Regs->cycle.wl);
Console::WriteLn("Vif1 CL %d, WL %d", vif1Regs->cycle.cl, vif1Regs->cycle.wl);
vif1.cmd &= ~0x7f;
return;
}
@ -1737,7 +1737,7 @@ static __forceinline void vif1UNPACK(u32 *data)
static __forceinline void vif1mpgTransfer(u32 addr, u32 *data, int size)
{
/* Console::WriteLn("vif1mpgTransfer addr=%x; size=%x", params addr, size);
/* Console::WriteLn("vif1mpgTransfer addr=%x; size=%x", addr, size);
{
FILE *f = fopen("vu1.raw", "wb");
fwrite(data, 1, size*4, f);
@ -1757,7 +1757,7 @@ static __forceinline void vif1mpgTransfer(u32 addr, u32 *data, int size)
static int __fastcall Vif1TransNull(u32 *data) // Shouldnt go here
{
Console::WriteLn("Shouldnt go here CMD = %x", params vif1Regs->code);
Console::WriteLn("Shouldnt go here CMD = %x", vif1Regs->code);
vif1.cmd = 0;
return 0;
}
@ -2038,7 +2038,7 @@ u8 schedulepath3msk = 0;
void Vif1MskPath3() // MSKPATH3
{
vif1Regs->mskpath3 = schedulepath3msk & 0x1;
//Console::WriteLn("VIF MSKPATH3 %x", params vif1Regs->mskpath3);
//Console::WriteLn("VIF MSKPATH3 %x", vif1Regs->mskpath3);
if (vif1Regs->mskpath3)
{
@ -2147,7 +2147,7 @@ static void Vif1CMDNull() // invalid opcode
if (!(vif1Regs->err.ME1)) //Ignore vifcode and tag mismatch error
{
Console::WriteLn("UNKNOWN VifCmd: %x\n", params vif1.cmd);
Console::WriteLn("UNKNOWN VifCmd: %x\n", vif1.cmd);
vif1Regs->stat |= VIF1_STAT_ER1;
vif1.irq++;
}
@ -2225,7 +2225,7 @@ int VIF1transfer(u32 *data, int size, int istag)
continue;
}
if (vif1.tag.size != 0) DevCon::Error("no vif1 cmd but tag size is left last cmd read %x", params vif1Regs->code);
if (vif1.tag.size != 0) DevCon::Error("no vif1 cmd but tag size is left last cmd read %x", vif1Regs->code);
if (vif1.irq) break;
@ -2245,7 +2245,7 @@ int VIF1transfer(u32 *data, int size, int istag)
{
if (!(vif0Regs->err.ME1)) //Ignore vifcode and tag mismatch error
{
Console::WriteLn("UNKNOWN VifCmd: %x", params vif1.cmd);
Console::WriteLn("UNKNOWN VifCmd: %x", vif1.cmd);
vif1Regs->stat |= VIF1_STAT_ER1;
vif1.irq++;
}
@ -2298,7 +2298,7 @@ int VIF1transfer(u32 *data, int size, int istag)
vif1ch->qwc -= transferred;
if ((vif1ch->qwc == 0) && (vif1.irqoffset == 0)) vif1.inprogress = 0;
//Console::WriteLn("Stall on vif1, FromSPR = %x, Vif1MADR = %x Sif0MADR = %x STADR = %x", params psHu32(0x1000d010), vif1ch->madr, psHu32(0x1000c010), psHu32(DMAC_STADR));
//Console::WriteLn("Stall on vif1, FromSPR = %x, Vif1MADR = %x Sif0MADR = %x STADR = %x", psHu32(0x1000d010), vif1ch->madr, psHu32(0x1000c010), psHu32(DMAC_STADR));
return -2;
}
@ -2511,7 +2511,7 @@ __forceinline void vif1Interrupt()
}
if (!(vif1ch->chcr.STR)) Console::WriteLn("Vif1 running when CHCR == %x", params vif1ch->chcr._u32);
if (!(vif1ch->chcr.STR)) Console::WriteLn("Vif1 running when CHCR == %x", vif1ch->chcr._u32);
if (vif1.irq && vif1.tag.size == 0)
{
@ -2564,7 +2564,7 @@ __forceinline void vif1Interrupt()
}
#ifdef PCSX2_DEVBUILD
if (vif1ch->qwc > 0) Console::WriteLn("VIF1 Ending with %x QWC left");
if (vif1.cmd != 0) Console::WriteLn("vif1.cmd still set %x tag size %x", params vif1.cmd, vif1.tag.size);
if (vif1.cmd != 0) Console::WriteLn("vif1.cmd still set %x tag size %x", vif1.cmd, vif1.tag.size);
#endif
vif1Regs->stat &= ~VIF1_STAT_VPS; //Vif goes idle as the stall happened between commands;
@ -2593,7 +2593,7 @@ void dmaVIF1()
{
//Console::WriteLn("VIFMFIFO\n");
// Test changed because the Final Fantasy 12 opening somehow has the tag in *Undefined* mode, which is not in the documentation that I saw.
if (vif1ch->chcr.MOD == NORMAL_MODE) Console::WriteLn("MFIFO mode is normal (which isn't normal here)! %x", params vif1ch->chcr);
if (vif1ch->chcr.MOD == NORMAL_MODE) Console::WriteLn("MFIFO mode is normal (which isn't normal here)! %x", vif1ch->chcr);
vifMFIFOInterrupt();
return;
}
@ -2601,7 +2601,7 @@ void dmaVIF1()
#ifdef PCSX2_DEVBUILD
if (dmacRegs->ctrl.STD == STD_VIF1)
{
//DevCon::WriteLn("VIF Stall Control Source = %x, Drain = %x", params (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3);
//DevCon::WriteLn("VIF Stall Control Source = %x, Drain = %x", (psHu32(0xe000) >> 4) & 0x3, (psHu32(0xe000) >> 6) & 0x3);
}
#endif
@ -2782,7 +2782,7 @@ void vif1Write32(u32 mem, u32 value)
break;
default:
Console::WriteLn("Unknown Vif1 write to %x", params mem);
Console::WriteLn("Unknown Vif1 write to %x", mem);
psHu32(mem) = value;
break;
}

View File

@ -384,7 +384,7 @@ void ConsoleLogFrame::OnMoveAround( wxMoveEvent& evt )
wxRect snapzone( topright - wxSize( 8,8 ), wxSize( 16,16 ) );
m_conf.AutoDock = snapzone.Contains( GetPosition() );
//Console::WriteLn( "DockCheck: %d", params g_Conf->ConLogBox.AutoDock );
//Console::WriteLn( "DockCheck: %d", g_Conf->ConLogBox.AutoDock );
if( m_conf.AutoDock )
{
SetPosition( topright + wxSize( 1,0 ) );
@ -620,21 +620,6 @@ namespace Console
return false;
}
bool __fastcall Write( const char* fmt )
{
_immediate_logger( fmt );
if( wxTheApp == NULL ) return false;
wxCommandEvent evt( wxEVT_LOG_Write );
evt.SetString( wxString::FromAscii( fmt ) );
evt.SetExtraLong( th_CurrentColor );
wxGetApp().ProgramLog_PostEvent( evt );
wxGetApp().ProgramLog_CountMsg();
return false;
}
bool __fastcall Write( const wxString& fmt )
{
_immediate_logger( fmt );
@ -650,27 +635,6 @@ namespace Console
return false;
}
bool __fastcall WriteLn( const char* fmt )
{
const wxString fmtline( wxString::FromAscii( fmt ) + L"\n" );
_immediate_logger( fmtline );
if( emuLog != NULL )
fflush( emuLog );
// Implementation note: I've duplicated Write+Newline behavior here to avoid polluting
// the message pump with lots of erroneous messages (Newlines can be bound into Write message).
if( wxTheApp == NULL ) return false;
wxCommandEvent evt( wxEVT_LOG_Write );
evt.SetString( fmtline );
evt.SetExtraLong( th_CurrentColor );
wxGetApp().ProgramLog_PostEvent( evt );
wxGetApp().ProgramLog_CountMsg();
return false;
}
bool __fastcall WriteLn( const wxString& fmt )
{
const wxString fmtline( fmt + L"\n" );

View File

@ -77,7 +77,7 @@ void Pcsx2App::OnKeyDown( wxKeyEvent& evt )
else
StatesC = (StatesC+1) % NUM_STATES;
Console::Notice( " > Selected savestate slot %d", params StatesC);
Console::Notice( " > Selected savestate slot %d", StatesC);
if( GSchangeSaveState != NULL )
GSchangeSaveState(StatesC, SaveState::GetFilename(StatesC).mb_str());
@ -158,7 +158,7 @@ void Pcsx2App::OnKeyDown( wxKeyEvent& evt )
{
#ifdef PCSX2_DEVBUILD
iDumpRegisters(cpuRegs.pc, 0);
Console::Notice("hardware registers dumped EE:%x, IOP:%x\n", params cpuRegs.pc, psxRegs.pc);
Console::Notice("hardware registers dumped EE:%x, IOP:%x\n", cpuRegs.pc, psxRegs.pc);
#endif
}
else

View File

@ -178,7 +178,7 @@ void IniLoader::_EnumEntry( const wxString& var, int& value, const wxChar* const
if( enumArray[i] == NULL )
{
Console::Notice( wxsFormat( L"Loadini Warning: Unrecognized value '%s' on key '%s'\n\tUsing the default setting of '%s'.",
params retval.c_str(), var.c_str(), enumArray[defvalue]
retval.c_str(), var.c_str(), enumArray[defvalue]
) );
value = defvalue;
}

View File

@ -163,7 +163,7 @@ void MainEmuFrame::Menu_RunIso_Click( wxCommandEvent &event )
void MainEmuFrame::Menu_IsoRecent_Click(wxCommandEvent &event)
{
//Console::Status( "%d", params event.GetId() - g_RecentIsoList->GetBaseId() );
//Console::Status( "%d", event.GetId() - g_RecentIsoList->GetBaseId() );
//Console::WriteLn( Color_Magenta, g_RecentIsoList->GetHistoryFile( event.GetId() - g_RecentIsoList->GetBaseId() ) );
}
@ -174,13 +174,13 @@ void MainEmuFrame::Menu_OpenELF_Click(wxCommandEvent &event)
void MainEmuFrame::Menu_LoadStates_Click(wxCommandEvent &event)
{
int id = event.GetId() - MenuId_State_Load01 - 1;
Console::WriteLn("If this were hooked up, it would load slot %d.", params id);
Console::WriteLn("If this were hooked up, it would load slot %d.", id);
}
void MainEmuFrame::Menu_SaveStates_Click(wxCommandEvent &event)
{
int id = event.GetId() - MenuId_State_Save01 - 1;
Console::WriteLn("If this were hooked up, it would save slot %d.", params id);
Console::WriteLn("If this were hooked up, it would save slot %d.", id);
}
void MainEmuFrame::Menu_LoadStateOther_Click(wxCommandEvent &event)

View File

@ -108,7 +108,7 @@ public:
if ( ((version >> 16)&0xff) == tbl_PluginInfo[pluginTypeIndex].version )
return true;
Console::Notice("%s Plugin %s: Version %x != %x", params info.shortname, m_plugpath.c_str(), 0xff&(version >> 16), info.version);
Console::Notice("%s Plugin %s: Version %x != %x", info.shortname, m_plugpath.c_str(), 0xff&(version >> 16), info.version);
}
return false;
}

View File

@ -74,11 +74,11 @@ void States_Load(int num)
if( !wxFileExists( file ) )
{
Console::Notice( "Savestate slot %d is empty.", params num );
Console::Notice( "Savestate slot %d is empty.", num );
return;
}
Console::Status( "Loading savestate from slot %d...", params num );
Console::Status( "Loading savestate from slot %d...", num );
States_Load( file );
HostGui::Notice( wxsFormat( _("Loaded State (slot %d)"), num ) );
}
@ -122,7 +122,7 @@ void States_Save( const wxString& file )
void States_Save(int num)
{
Console::Status( "Saving savestate to slot %d...", params num );
Console::Status( "Saving savestate to slot %d...", num );
States_Save( SaveState::GetFilename( num ) );
}

View File

@ -155,7 +155,7 @@ bool i18n_SetLanguage( int wxLangId )
{
if( !wxLocale::IsAvailable( wxLangId ) )
{
Console::Notice( "Invalid Language Identifier (wxID=%d).", params wxLangId );
Console::Notice( "Invalid Language Identifier (wxID=%d).", wxLangId );
return false;
}

View File

@ -125,7 +125,7 @@ static void loadBiosRom( const wxChar *ext, u8 *dest, long maxSize )
Bios1 = Path::ReplaceExtension( Bios, ext );
if( (filesize=Path::GetFileSize( Bios1 ) ) <= 0 )
{
Console::Notice( "Load Bios Warning: %s not found (this is not an error!)", params wxString(ext).ToAscii().data() );
Console::Notice( "Load Bios Warning: %s not found (this is not an error!)", wxString(ext).ToAscii().data() );
return;
}
}
@ -170,7 +170,7 @@ void LoadBIOS()
}
BiosVersion = GetBiosVersion();
Console::Status("Bios Version %d.%d", params BiosVersion >> 8, BiosVersion & 0xff);
Console::Status("Bios Version %d.%d", BiosVersion >> 8, BiosVersion & 0xff);
//injectIRX("host.irx"); //not fully tested; still buggy

View File

@ -50,12 +50,12 @@ mem8_t __fastcall iopHwRead8_Page1( u32 addr )
default:
if( masked_addr >= 0x100 && masked_addr < 0x130 )
{
DevCon::Notice( "HwRead8 from Counter16 [ignored], addr 0x%08x = 0x%02x", params addr, psxHu8(addr) );
DevCon::Notice( "HwRead8 from Counter16 [ignored], addr 0x%08x = 0x%02x", addr, psxHu8(addr) );
ret = psxHu8( addr );
}
else if( masked_addr >= 0x480 && masked_addr < 0x4a0 )
{
DevCon::Notice( "HwRead8 from Counter32 [ignored], addr 0x%08x = 0x%02x", params addr, psxHu8(addr) );
DevCon::Notice( "HwRead8 from Counter32 [ignored], addr 0x%08x = 0x%02x", addr, psxHu8(addr) );
ret = psxHu8( addr );
}
else if( (masked_addr >= pgmsk(HW_USB_START)) && (masked_addr < pgmsk(HW_USB_END)) )
@ -215,7 +215,7 @@ static __forceinline T _HwRead_16or32_Page1( u32 addr )
ret = SPU2read( addr );
else
{
DevCon::Notice( "HwRead32 from SPU2? (addr=0x%08X) .. What manner of trickery is this?!", params addr );
DevCon::Notice( "HwRead32 from SPU2? (addr=0x%08X) .. What manner of trickery is this?!", addr );
ret = psxHu32(addr);
}
}

View File

@ -84,12 +84,12 @@ void __fastcall iopHwWrite8_Page1( u32 addr, mem8_t val )
default:
if( masked_addr >= 0x100 && masked_addr < 0x130 )
{
DevCon::Notice( "HwWrite8 to Counter16 [ignored], addr 0x%08x = 0x%02x", params addr, psxHu8(addr) );
DevCon::Notice( "HwWrite8 to Counter16 [ignored], addr 0x%08x = 0x%02x", addr, psxHu8(addr) );
psxHu8( addr ) = val;
}
else if( masked_addr >= 0x480 && masked_addr < 0x4a0 )
{
DevCon::Notice( "HwWrite8 to Counter32 [ignored], addr 0x%08x = 0x%02x", params addr, psxHu8(addr) );
DevCon::Notice( "HwWrite8 to Counter32 [ignored], addr 0x%08x = 0x%02x", addr, psxHu8(addr) );
psxHu8( addr ) = val;
}
else if( masked_addr >= pgmsk(HW_USB_START) && masked_addr < pgmsk(HW_USB_END) )
@ -240,7 +240,7 @@ static __forceinline void _HwWrite_16or32_Page1( u32 addr, T val )
SPU2write( addr, val );
else
{
DevCon::Notice( "HwWrite32 to SPU2? (addr=0x%08X) .. What manner of trickery is this?!", params addr );
DevCon::Notice( "HwWrite32 to SPU2? (addr=0x%08X) .. What manner of trickery is this?!", addr );
//psxHu(addr) = val;
}
}

View File

@ -79,7 +79,7 @@ __forceinline DataType __fastcall MemOp_r0(u32 addr)
//has to: translate, find function, call function
u32 hand=(u8)vmv;
u32 paddr=ppf-hand+0x80000000;
//Console::WriteLn("Translated 0x%08X to 0x%08X",params addr,paddr);
//Console::WriteLn("Translated 0x%08X to 0x%08X", addr,paddr);
//return reinterpret_cast<TemplateHelper<DataSize,false>::HandlerType*>(vtlbdata.RWFT[TemplateHelper<DataSize,false>::sidx][0][hand])(paddr,data);
switch( DataSize )
@ -113,7 +113,7 @@ __forceinline void __fastcall MemOp_r1(u32 addr, DataType* data)
//has to: translate, find function, call function
u32 hand=(u8)vmv;
u32 paddr=ppf-hand+0x80000000;
//Console::WriteLn("Translated 0x%08X to 0x%08X",params addr,paddr);
//Console::WriteLn("Translated 0x%08X to 0x%08X", addr,paddr);
//return reinterpret_cast<TemplateHelper<DataSize,false>::HandlerType*>(RWFT[TemplateHelper<DataSize,false>::sidx][0][hand])(paddr,data);
switch( DataSize )
@ -141,7 +141,7 @@ __forceinline void __fastcall MemOp_w0(u32 addr, DataType data)
//has to: translate, find function, call function
u32 hand=(u8)vmv;
u32 paddr=ppf-hand+0x80000000;
//Console::WriteLn("Translated 0x%08X to 0x%08X",params addr,paddr);
//Console::WriteLn("Translated 0x%08X to 0x%08X", addr,paddr);
switch( DataSize )
{
@ -172,7 +172,7 @@ __forceinline void __fastcall MemOp_w1(u32 addr,const DataType* data)
//has to: translate, find function, call function
u32 hand=(u8)vmv;
u32 paddr=ppf-hand+0x80000000;
//Console::WriteLn("Translated 0x%08X to 0x%08X",params addr,paddr);
//Console::WriteLn("Translated 0x%08X to 0x%08X", addr,paddr);
switch( DataSize )
{
case 64: return ((vtlbMemW64FP*)vtlbdata.RWFT[3][1][hand])(paddr, data);
@ -236,7 +236,7 @@ static const char* _getModeStr( u32 mode )
// Generates a tlbMiss Exception
static __forceinline void vtlb_Miss(u32 addr,u32 mode)
{
//Console::Error( "vtlb miss : addr 0x%X, mode %d [%s]", params addr, mode, _getModeStr(mode) );
//Console::Error( "vtlb miss : addr 0x%X, mode %d [%s]", addr, mode, _getModeStr(mode) );
//verify(false);
throw R5900Exception::TLBMiss( addr, !!mode );
}
@ -245,7 +245,7 @@ static __forceinline void vtlb_Miss(u32 addr,u32 mode)
// Eventually should generate a BusError exception.
static __forceinline void vtlb_BusError(u32 addr,u32 mode)
{
//Console::Error( "vtlb bus error : addr 0x%X, mode %d\n", params addr, _getModeStr(mode) );
//Console::Error( "vtlb bus error : addr 0x%X, mode %d\n", addr, _getModeStr(mode) );
//verify(false);
throw R5900Exception::BusError( addr, !!mode );
}
@ -295,17 +295,17 @@ template<u32 saddr>
void __fastcall vtlbUnmappedPWrite128(u32 addr,const mem128_t* data) { vtlb_BusError(addr|saddr,1); }
///// VTLB mapping errors (unmapped address spaces)
mem8_t __fastcall vtlbDefaultPhyRead8(u32 addr) { Console::Error("vtlbDefaultPhyRead8: 0x%X",params addr); verify(false); return -1; }
mem16_t __fastcall vtlbDefaultPhyRead16(u32 addr) { Console::Error("vtlbDefaultPhyRead16: 0x%X",params addr); verify(false); return -1; }
mem32_t __fastcall vtlbDefaultPhyRead32(u32 addr) { Console::Error("vtlbDefaultPhyRead32: 0x%X",params addr); verify(false); return -1; }
void __fastcall vtlbDefaultPhyRead64(u32 addr,mem64_t* data) { Console::Error("vtlbDefaultPhyRead64: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyRead128(u32 addr,mem128_t* data) { Console::Error("vtlbDefaultPhyRead128: 0x%X",params addr); verify(false); }
mem8_t __fastcall vtlbDefaultPhyRead8(u32 addr) { Console::Error("vtlbDefaultPhyRead8: 0x%X",addr); verify(false); return -1; }
mem16_t __fastcall vtlbDefaultPhyRead16(u32 addr) { Console::Error("vtlbDefaultPhyRead16: 0x%X",addr); verify(false); return -1; }
mem32_t __fastcall vtlbDefaultPhyRead32(u32 addr) { Console::Error("vtlbDefaultPhyRead32: 0x%X",addr); verify(false); return -1; }
void __fastcall vtlbDefaultPhyRead64(u32 addr,mem64_t* data) { Console::Error("vtlbDefaultPhyRead64: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyRead128(u32 addr,mem128_t* data) { Console::Error("vtlbDefaultPhyRead128: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite8(u32 addr,mem8_t data) { Console::Error("vtlbDefaultPhyWrite8: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite16(u32 addr,mem16_t data) { Console::Error("vtlbDefaultPhyWrite16: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite32(u32 addr,mem32_t data) { Console::Error("vtlbDefaultPhyWrite32: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite64(u32 addr,const mem64_t* data) { Console::Error("vtlbDefaultPhyWrite64: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite128(u32 addr,const mem128_t* data) { Console::Error("vtlbDefaultPhyWrite128: 0x%X",params addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite8(u32 addr,mem8_t data) { Console::Error("vtlbDefaultPhyWrite8: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite16(u32 addr,mem16_t data) { Console::Error("vtlbDefaultPhyWrite16: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite32(u32 addr,mem32_t data) { Console::Error("vtlbDefaultPhyWrite32: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite64(u32 addr,const mem64_t* data) { Console::Error("vtlbDefaultPhyWrite64: 0x%X",addr); verify(false); }
void __fastcall vtlbDefaultPhyWrite128(u32 addr,const mem128_t* data) { Console::Error("vtlbDefaultPhyWrite128: 0x%X",addr); verify(false); }
//////////////////////////////////////////////////////////////////////////////////////////

View File

@ -231,7 +231,7 @@ int __stdcall ProfilerThread(void* nada)
rv += lst[i].ToString(tick_count);
}
Console::WriteLn("+Sampling Profiler Results-\n%s\n+>", params rv.ToAscii().data() );
Console::WriteLn("+Sampling Profiler Results-\n%s\n+>", rv.ToAscii().data() );
tick_count=0;

View File

@ -60,10 +60,10 @@ void recCOP2_SPECIAL(s32 info);
void recCOP2_BC2(s32 info);
void recCOP2_SPECIAL2(s32 info);
void rec_C2UNK( s32 info ) {
Console::Error("Cop2 bad opcode: %x", params cpuRegs.code);
Console::Error("Cop2 bad opcode: %x", cpuRegs.code);
}
void _vuRegs_C2UNK(VURegs * VU, _VURegsNum *VUregsn) {
Console::Error("Cop2 bad _vuRegs code:%x", params cpuRegs.code);
Console::Error("Cop2 bad _vuRegs code:%x", cpuRegs.code);
}
static void recCFC2(s32 info)

View File

@ -154,7 +154,7 @@ static void iIopDumpBlock( int startpc, u8 * ptr )
u8 used[34];
int numused, count;
Console::WriteLn( "dump1 %x:%x, %x", params startpc, psxpc, psxRegs.cycle );
Console::WriteLn( "dump1 %x:%x, %x", startpc, psxpc, psxRegs.cycle );
g_Conf->Folders.Logs.Mkdir();
wxString filename( Path::Combine( g_Conf->Folders.Logs, wxsFormat( L"psxdump%.8X.txt", startpc ) ) );
@ -830,7 +830,7 @@ static void checkcodefn()
#else
__asm__("movl %%eax, %[pctemp]" : : [pctemp]"m"(pctemp) );
#endif
Console::WriteLn("iop code changed! %x", params pctemp);
Console::WriteLn("iop code changed! %x", pctemp);
}
#endif
#endif

View File

@ -1776,7 +1776,7 @@ static void rpsxCOP0() { rpsxCP0[_Rs_](); }
//static void rpsxBASIC() { rpsxCP2BSC[_Rs_](); }
static void rpsxNULL() {
Console::WriteLn("psxUNK: %8.8x", params psxRegs.code);
Console::WriteLn("psxUNK: %8.8x", psxRegs.code);
}
void (*rpsxBSC[64])() = {

View File

@ -148,32 +148,32 @@ void recMTSAH( void )
////////////////////////////////////////////////////
void recNULL( void )
{
Console::Error("EE: Unimplemented op %x", params cpuRegs.code);
Console::Error("EE: Unimplemented op %x", cpuRegs.code);
}
////////////////////////////////////////////////////
void recUnknown()
{
// TODO : Unknown ops should throw an exception.
Console::Error("EE: Unrecognized op %x", params cpuRegs.code);
Console::Error("EE: Unrecognized op %x", cpuRegs.code);
}
void recMMI_Unknown()
{
// TODO : Unknown ops should throw an exception.
Console::Error("EE: Unrecognized MMI op %x", params cpuRegs.code);
Console::Error("EE: Unrecognized MMI op %x", cpuRegs.code);
}
void recCOP0_Unknown()
{
// TODO : Unknown ops should throw an exception.
Console::Error("EE: Unrecognized COP0 op %x", params cpuRegs.code);
Console::Error("EE: Unrecognized COP0 op %x", cpuRegs.code);
}
void recCOP1_Unknown()
{
// TODO : Unknown ops should throw an exception.
Console::Error("EE: Unrecognized FPU/COP1 op %x", params cpuRegs.code);
Console::Error("EE: Unrecognized FPU/COP1 op %x", cpuRegs.code);
}
/**********************************************************

View File

@ -103,13 +103,13 @@ static u32 runCount = 0;
#define cmpB Console::WriteLn
#define cmpPrint(cond) { \
if (cond) { \
cmpA("%s", params str1); \
cmpA("%s", params str2); \
cmpA("%s", str1); \
cmpA("%s", str2); \
mVUdebugNow = 1; \
} \
else { \
cmpB("%s", params str1); \
cmpB("%s", params str2); \
cmpB("%s", str1); \
cmpB("%s", str2); \
} \
}
@ -125,7 +125,7 @@ namespace VU1micro
{
if((VU0.VI[REG_VPU_STAT].UL & 0x100) == 0) return;
assert((VU1.VI[ REG_TPC ].UL&7) == 0);
if (VU1.VI[REG_TPC].UL >= VU1.maxmicro) { Console::Error("VU1 memory overflow!!: %x", params VU1.VI[REG_TPC].UL); }
if (VU1.VI[REG_TPC].UL >= VU1.maxmicro) { Console::Error("VU1 memory overflow!!: %x", VU1.VI[REG_TPC].UL); }
#ifdef DEBUG_COMPARE
SysPrintf("(%08d) StartPC = 0x%04x\n", runAmount, VU1.VI[REG_TPC].UL);
@ -282,7 +282,7 @@ namespace VU1micro
if (useMVU1) runVUrec(VU1.VI[REG_TPC].UL, 3000000, 1);
else {
if (VU1.VI[REG_TPC].UL >= VU1.maxmicro) {
Console::Error("VU1 memory overflow!!: %x", params VU1.VI[REG_TPC].UL);
Console::Error("VU1 memory overflow!!: %x", VU1.VI[REG_TPC].UL);
}
do { // while loop needed since not always will return finished
SuperVUExecuteProgram(VU1.VI[REG_TPC].UL & 0x3fff, 1);

View File

@ -308,7 +308,7 @@ u32* recGetImm64(u32 hi, u32 lo)
imm64[0] = lo;
imm64[1] = hi;
//Console::Notice("Consts allocated: %d of %u", params (recConstBufPtr - recConstBuf) / 2, count);
//Console::Notice("Consts allocated: %d of %u", (recConstBufPtr - recConstBuf) / 2, count);
return imm64;
}
@ -495,7 +495,7 @@ void recEventTest()
if( g_globalXMMSaved || g_globalMMXSaved)
{
DevCon::Error("Pcsx2 Foopah! Frozen regs have not been restored!!!");
DevCon::Error("g_globalXMMSaved = %d,g_globalMMXSaved = %d",params g_globalXMMSaved, g_globalMMXSaved);
DevCon::Error("g_globalXMMSaved = %d,g_globalMMXSaved = %d", g_globalXMMSaved, g_globalMMXSaved);
}
assert( !g_globalXMMSaved && !g_globalMMXSaved);
#endif
@ -896,12 +896,12 @@ void iFlushCall(int flushtype)
// int i;
// for(i = 0; i < 32; ++i ) {
// if( fpuRegs.fpr[i].UL== 0x7f800000 || fpuRegs.fpr[i].UL == 0xffc00000) {
// Console::WriteLn("bad fpu: %x %x %x", params i, cpuRegs.cycle, g_lastpc);
// Console::WriteLn("bad fpu: %x %x %x", i, cpuRegs.cycle, g_lastpc);
// }
//
// if( VU0.VF[i].UL[0] == 0xffc00000 || //(VU0.VF[i].UL[1]&0xffc00000) == 0xffc00000 ||
// VU0.VF[i].UL[0] == 0x7f800000) {
// Console::WriteLn("bad vu0: %x %x %x", params i, cpuRegs.cycle, g_lastpc);
// Console::WriteLn("bad vu0: %x %x %x", i, cpuRegs.cycle, g_lastpc);
// }
// }
//}
@ -1048,7 +1048,7 @@ static void checkcodefn()
__asm__("movl %%eax, %[pctemp]" : [pctemp]"=m"(pctemp) );
#endif
Console::Error("code changed! %x", params pctemp);
Console::Error("code changed! %x", pctemp);
assert(0);
}
@ -1118,7 +1118,7 @@ void recompileNextInstruction(int delayslot)
case 1:
switch(_Rt_) {
case 0: case 1: case 2: case 3: case 0x10: case 0x11: case 0x12: case 0x13:
Console::Notice("branch %x in delay slot!", params cpuRegs.code);
Console::Notice("branch %x in delay slot!", cpuRegs.code);
_clearNeededX86regs();
_clearNeededMMXregs();
_clearNeededXMMregs();
@ -1127,7 +1127,7 @@ void recompileNextInstruction(int delayslot)
break;
case 2: case 3: case 4: case 5: case 6: case 7: case 0x14: case 0x15: case 0x16: case 0x17:
Console::Notice("branch %x in delay slot!", params cpuRegs.code);
Console::Notice("branch %x in delay slot!", cpuRegs.code);
_clearNeededX86regs();
_clearNeededMMXregs();
_clearNeededXMMregs();
@ -1197,7 +1197,7 @@ void badespfn() {
// Called when a block under manual protection fails it's pre-execution integrity check.
void __fastcall dyna_block_discard(u32 start,u32 sz)
{
DevCon::WriteLn("dyna_block_discard .. start=0x%08X size=%d", params start, sz*4);
DevCon::WriteLn("dyna_block_discard .. start=0x%08X size=%d", start, sz*4);
recClear(start, sz);
}
@ -1294,7 +1294,7 @@ void recRecompile( const u32 startpc )
willbranch3 = 1;
s_nEndBlock = i;
//DevCon::Notice( "Pagesplit @ %08X : size=%d insts", params startpc, (i-startpc) / 4 );
//DevCon::Notice( "Pagesplit @ %08X : size=%d insts", startpc, (i-startpc) / 4 );
break;
}
@ -1517,12 +1517,12 @@ StartRecomp:
// note: clearcnt is measured per-page, not per-block!
//DbgCon::WriteLn( "Manual block @ %08X : size=%3d page/offs=%05X/%03X inpgsz=%d clearcnt=%d",
// params startpc, sz, inpage_ptr>>12, inpage_ptr&0xfff, inpage_sz, manual_counter[inpage_ptr >> 12] );
// startpc, sz, inpage_ptr>>12, inpage_ptr&0xfff, inpage_sz, manual_counter[inpage_ptr >> 12] );
}
else
{
DbgCon::Notice( "Uncounted Manual block @ %08X : size=%3d page/offs=%05X/%03X inpgsz=%d",
params startpc, sz, inpage_ptr>>12, inpage_ptr&0xfff, pgsz, inpage_sz );
startpc, sz, inpage_ptr>>12, inpage_ptr&0xfff, pgsz, inpage_sz );
}
}

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@ -186,7 +186,7 @@ void assertmem()
{
__asm mov s_tempaddr, ecx
__asm mov s_bCachingMem, edx
Console::Error("%x(%x) not mem write!", params s_tempaddr, s_bCachingMem);
Console::Error("%x(%x) not mem write!", s_tempaddr, s_bCachingMem);
assert(0);
}

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@ -178,7 +178,7 @@ microVUf(int) mVUfindLeastUsedProg() {
mVU->prog.prog[i].isOld = 0;
mVU->prog.prog[i].used = 1;
mVUsortProg(mVU, i);
Console::Notice("microVU%d: Cached MicroPrograms = [%03d] [%03d]", params vuIndex, i+1, mVU->prog.total+1);
Console::Notice("microVU%d: Cached MicroPrograms = [%03d] [%03d]", vuIndex, i+1, mVU->prog.total+1);
return i;
}
}
@ -195,7 +195,7 @@ microVUf(int) mVUfindLeastUsedProg() {
mVU->prog.prog[pIdx].isOld = 0;
mVU->prog.prog[pIdx].used = 1;
mVUsortProg(mVU, pIdx);
Console::Notice("microVU%d: Cached MicroPrograms = [%03d] [%03d]", params vuIndex, pIdx+1, mVU->prog.total+1);
Console::Notice("microVU%d: Cached MicroPrograms = [%03d] [%03d]", vuIndex, pIdx+1, mVU->prog.total+1);
return pIdx;
}
@ -211,11 +211,11 @@ microVUt(void) mVUvsyncUpdate(mV) {
mVU->prog.total--;
if (!mVU->index) mVUclearProg<0>(i);
else mVUclearProg<1>(i);
DevCon::Status("microVU%d: Killing Dead Program [%03d]", params mVU->index, i+1);
DevCon::Status("microVU%d: Killing Dead Program [%03d]", mVU->index, i+1);
}
else if (((mVU->prog.curFrame - mVU->prog.prog[i].frame) >= (30 * 1)) && !mVU->prog.prog[i].isOld) {
mVU->prog.prog[i].isOld = 1;
//DevCon::Status("microVU%d: Aging Old Program [%03d]", params mVU->index, i+1);
//DevCon::Status("microVU%d: Aging Old Program [%03d]", mVU->index, i+1);
}
}
mVU->prog.curFrame++;
@ -225,7 +225,7 @@ microVUf(bool) mVUcmpPartial(int progIndex) {
microVU* mVU = mVUx;
for (int i = 0; i <= mVUprogI.ranges.total; i++) {
if ((mVUprogI.ranges.range[i][0] < 0)
|| (mVUprogI.ranges.range[i][1] < 0)) { DevCon::Error("microVU%d: Negative Range![%d][%d]", params mVU->index, i, mVUprogI.ranges.total); }
|| (mVUprogI.ranges.range[i][1] < 0)) { DevCon::Error("microVU%d: Negative Range![%d][%d]", mVU->index, i, mVUprogI.ranges.total); }
if (memcmp_mmx(cmpOffset(mVUprogI.data), cmpOffset(mVU->regs->Micro), ((mVUprogI.ranges.range[i][1] + 8) - mVUprogI.ranges.range[i][0]))) {
return 0;
}

View File

@ -101,7 +101,7 @@ public:
microBlockLink* linkI = &blockList;
for (int i = 0; i <= listI; i++) {
DevCon::Status("[%04x][Block #%d][q=%02d][p=%02d][xgkick=%d][vi15=%08x][viBackup=%02d][flags=%02x][exactMatch=%x]",
params pc, i, linkI->block->pState.q, linkI->block->pState.p, linkI->block->pState.xgkick, linkI->block->pState.vi15,
pc, i, linkI->block->pState.q, linkI->block->pState.p, linkI->block->pState.xgkick, linkI->block->pState.vi15,
linkI->block->pState.viBackUp, linkI->block->pState.flags, linkI->block->pState.needExactMatch);
linkI = linkI->next;
}

View File

@ -33,7 +33,7 @@
case 2: regX = gprF2; break; \
case 3: regX = gprF3; break; \
default: \
Console::Error("microVU Error: fInst = %d", params fInst); \
Console::Error("microVU Error: fInst = %d", fInst); \
regX = gprF0; \
break; \
} \

View File

@ -383,7 +383,7 @@ microVUt(void) analyzeBranchVI(mV, int xReg, bool &infoVar) {
infoVar = 1;
}
iPC = bPC;
DevCon::Status("microVU%d: Branch VI-Delay (%d) [%04x]", params getIndex, i, xPC);
DevCon::Status("microVU%d: Branch VI-Delay (%d) [%04x]", getIndex, i, xPC);
}
else iPC = bPC;
}
@ -397,7 +397,7 @@ microVUt(int) mVUbranchCheck(mV) {
incPC(2);
mVUlow.evilBranch = 1;
mVUregs.blockType = 2;
DevCon::Status("microVU%d Warning: Branch in Branch delay slot! [%04x]", params mVU->index, xPC);
DevCon::Status("microVU%d Warning: Branch in Branch delay slot! [%04x]", mVU->index, xPC);
return 1;
}
incPC(2);
@ -434,7 +434,7 @@ microVUt(void) mVUanalyzeJump(mV, int Is, int It, bool isJALR) {
if (mVUconstReg[Is].isValid && !CHECK_VU_CONSTHACK) {
mVUlow.constJump.isValid = 1;
mVUlow.constJump.regValue = mVUconstReg[Is].regValue;
//DevCon::Status("microVU%d: Constant JR/JALR Address Optimization", params mVU->index);
//DevCon::Status("microVU%d: Constant JR/JALR Address Optimization", mVU->index);
}
analyzeVIreg1(Is, mVUlow.VI_read[0]);
if (isJALR) {

View File

@ -68,7 +68,7 @@ microVUt(void) mVUsetupRange(mV, s32 pc, bool isStartPC) {
mVUcurProg.ranges.total = 0;
mVUrange[0] = 0;
mVUrange[1] = mVU->microMemSize - 8;
DevCon::Status("microVU%d: Prog Range List Full", params mVU->index);
DevCon::Status("microVU%d: Prog Range List Full", mVU->index);
}
}
else {
@ -82,7 +82,7 @@ microVUt(void) mVUsetupRange(mV, s32 pc, bool isStartPC) {
&& (mVUcurProg.ranges.range[i][1] <= rEnd)){
mVUcurProg.ranges.range[i][1] = pc;
mergedRange = 1;
//DevCon::Status("microVU%d: Prog Range Merging", params mVU->index);
//DevCon::Status("microVU%d: Prog Range Merging", mVU->index);
}
}
if (mergedRange) {
@ -92,7 +92,7 @@ microVUt(void) mVUsetupRange(mV, s32 pc, bool isStartPC) {
}
}
else {
DevCon::Status("microVU%d: Prog Range Wrap [%04x] [%d]", params mVU->index, mVUrange[0], mVUrange[1]);
DevCon::Status("microVU%d: Prog Range Wrap [%04x] [%d]", mVU->index, mVUrange[0], mVUrange[1]);
mVUrange[1] = mVU->microMemSize - 8;
if (mVUcurProg.ranges.total < mVUcurProg.ranges.max) {
mVUcurProg.ranges.total++;
@ -103,16 +103,16 @@ microVUt(void) mVUsetupRange(mV, s32 pc, bool isStartPC) {
mVUcurProg.ranges.total = 0;
mVUrange[0] = 0;
mVUrange[1] = mVU->microMemSize - 8;
DevCon::Status("microVU%d: Prog Range List Full", params mVU->index);
DevCon::Status("microVU%d: Prog Range List Full", mVU->index);
}
}
}
}
microVUt(void) startLoop(mV) {
if (curI & _Mbit_) { Console::Status("microVU%d: M-bit set!", params getIndex); }
if (curI & _Dbit_) { DevCon::Status ("microVU%d: D-bit set!", params getIndex); }
if (curI & _Tbit_) { DevCon::Status ("microVU%d: T-bit set!", params getIndex); }
if (curI & _Mbit_) { Console::Status("microVU%d: M-bit set!", getIndex); }
if (curI & _Dbit_) { DevCon::Status ("microVU%d: D-bit set!", getIndex); }
if (curI & _Tbit_) { DevCon::Status ("microVU%d: T-bit set!", getIndex); }
memset(&mVUinfo, 0, sizeof(mVUinfo));
memset(&mVUregsTemp, 0, sizeof(mVUregsTemp));
}
@ -124,7 +124,7 @@ microVUt(void) doIbit(mV) {
mVU->regAlloc->clearRegVF(33);
if (CHECK_VU_OVERFLOW && ((curI & 0x7fffffff) >= 0x7f800000)) {
Console::Status("microVU%d: Clamping I Reg", params mVU->index);
Console::Status("microVU%d: Clamping I Reg", mVU->index);
tempI = (0x80000000 & curI) | 0x7f7fffff; // Clamp I Reg
}
else tempI = curI;
@ -136,7 +136,7 @@ microVUt(void) doIbit(mV) {
microVUt(void) doSwapOp(mV) {
if (mVUinfo.backupVF && !mVUlow.noWriteVF) {
DevCon::Status("microVU%d: Backing Up VF Reg [%04x]", params getIndex, xPC);
DevCon::Status("microVU%d: Backing Up VF Reg [%04x]", getIndex, xPC);
int t1 = mVU->regAlloc->allocReg(mVUlow.VF_write.reg);
int t2 = mVU->regAlloc->allocReg();
SSE_MOVAPS_XMM_to_XMM(t2, t1);
@ -161,7 +161,7 @@ microVUt(void) branchWarning(mV) {
incPC(-2);
if (mVUup.eBit && mVUbranch) {
incPC(2);
Console::Error("microVU%d Warning: Branch in E-bit delay slot! [%04x]", params mVU->index, xPC);
Console::Error("microVU%d Warning: Branch in E-bit delay slot! [%04x]", mVU->index, xPC);
mVUlow.isNOP = 1;
}
else incPC(2);
@ -181,11 +181,11 @@ microVUt(void) eBitPass1(mV, int& branch) {
}
microVUt(void) eBitWarning(mV) {
if (mVUpBlock->pState.blockType == 1) Console::Error("microVU%d Warning: Branch, E-bit, Branch! [%04x]", params mVU->index, xPC);
if (mVUpBlock->pState.blockType == 2) Console::Error("microVU%d Warning: Branch, Branch, Branch! [%04x]", params mVU->index, xPC);
if (mVUpBlock->pState.blockType == 1) Console::Error("microVU%d Warning: Branch, E-bit, Branch! [%04x]", mVU->index, xPC);
if (mVUpBlock->pState.blockType == 2) Console::Error("microVU%d Warning: Branch, Branch, Branch! [%04x]", mVU->index, xPC);
incPC(2);
if (curI & _Ebit_) {
DevCon::Status("microVU%d: E-bit in Branch delay slot! [%04x]", params mVU->index, xPC);
DevCon::Status("microVU%d: E-bit in Branch delay slot! [%04x]", mVU->index, xPC);
mVUregs.blockType = 1;
}
incPC(-2);
@ -279,10 +279,10 @@ microVUt(void) mVUsetCycles(mV) {
tCycles(mVUregs.xgkick, mVUregsTemp.xgkick);
}
void __fastcall mVUwarning0(mV) { Console::Error("microVU0 Warning: Exiting from Possible Infinite Loop [%04x] [%x]", params xPC, mVU->prog.cur); }
void __fastcall mVUwarning1(mV) { Console::Error("microVU1 Warning: Exiting from Possible Infinite Loop [%04x] [%x]", params xPC, mVU->prog.cur); }
void __fastcall mVUprintPC1(u32 PC) { Console::Write("Block PC [%04x] ", params PC); }
void __fastcall mVUprintPC2(u32 PC) { Console::Write("[%04x]\n", params PC); }
void __fastcall mVUwarning0(mV) { Console::Error("microVU0 Warning: Exiting from Possible Infinite Loop [%04x] [%x]", xPC, mVU->prog.cur); }
void __fastcall mVUwarning1(mV) { Console::Error("microVU1 Warning: Exiting from Possible Infinite Loop [%04x] [%x]", xPC, mVU->prog.cur); }
void __fastcall mVUprintPC1(u32 PC) { Console::Write("Block PC [%04x] ", PC); }
void __fastcall mVUprintPC2(u32 PC) { Console::Write("[%04x]\n", PC); }
microVUt(void) mVUtestCycles(mV) {
u32* vu0jmp;
@ -406,7 +406,7 @@ microVUr(void*) mVUcompile(microVU* mVU, u32 startPC, uptr pState) {
}
}
}
if ((x == endCount) && (x!=1)) { Console::Error("microVU%d: Possible infinite compiling loop!", params mVU->index); }
if ((x == endCount) && (x!=1)) { Console::Error("microVU%d: Possible infinite compiling loop!", mVU->index); }
// E-bit End
mVUsetupRange(mVU, xPC-8, 0);
@ -418,7 +418,7 @@ microVUr(void*) mVUcompile(microVU* mVU, u32 startPC, uptr pState) {
microVUt(void*) mVUblockFetch(microVU* mVU, u32 startPC, uptr pState) {
using namespace x86Emitter;
if (startPC > mVU->microMemSize-8) { DevCon::Error("microVU%d: invalid startPC [%04x]", params mVU->index, startPC); }
if (startPC > mVU->microMemSize-8) { DevCon::Error("microVU%d: invalid startPC [%04x]", mVU->index, startPC); }
startPC &= mVU->microMemSize-8;
blockCreate(startPC/8);

View File

@ -95,7 +95,7 @@ void mVUdispatcherB(mV) {
microVUx(void*) __fastcall mVUexecute(u32 startPC, u32 cycles) {
microVU* mVU = mVUx;
//mVUprint("microVU%x: startPC = 0x%x, cycles = 0x%x", params vuIndex, startPC, cycles);
//mVUprint("microVU%x: startPC = 0x%x, cycles = 0x%x", vuIndex, startPC, cycles);
mVUsearchProg<vuIndex>(); // Find and set correct program
mVU->cycles = cycles;
@ -112,8 +112,8 @@ microVUx(void*) __fastcall mVUexecute(u32 startPC, u32 cycles) {
microVUx(void) mVUcleanUp() {
microVU* mVU = mVUx;
//mVUprint("microVU: Program exited successfully!");
//mVUprint("microVU: VF0 = {%x,%x,%x,%x}", params mVU->regs->VF[0].UL[0], mVU->regs->VF[0].UL[1], mVU->regs->VF[0].UL[2], mVU->regs->VF[0].UL[3]);
//mVUprint("microVU: VI0 = %x", params mVU->regs->VI[0].UL);
//mVUprint("microVU: VF0 = {%x,%x,%x,%x}", mVU->regs->VF[0].UL[0], mVU->regs->VF[0].UL[1], mVU->regs->VF[0].UL[2], mVU->regs->VF[0].UL[3]);
//mVUprint("microVU: VI0 = %x", mVU->regs->VI[0].UL);
mVU->prog.x86ptr = x86Ptr;
mVUcacheCheck(x86Ptr, mVU->prog.x86start, (uptr)(mVU->prog.x86end - mVU->prog.x86start));
mVU->cycles = mVU->totalCycles - mVU->cycles;

View File

@ -50,7 +50,7 @@ microVUt(void) mVUstatusFlagOp(mV) {
}
}
iPC = curPC;
DevCon::Status("microVU%d: FSSET Optimization", params getIndex);
DevCon::Status("microVU%d: FSSET Optimization", getIndex);
}
int findFlagInst(int* fFlag, int cycles) {

View File

@ -247,7 +247,7 @@ public:
for (int i = 0; i < xmmTotal; i++) {
if ((i == reg) || xmmReg[i].isNeeded) continue;
if (xmmReg[i].reg == xmmReg[reg].reg) {
if (xmmReg[i].xyzw && xmmReg[i].xyzw < 0xf) DevCon::Error("microVU Error: writeBackReg() [%d]", params xmmReg[i].reg);
if (xmmReg[i].xyzw && xmmReg[i].xyzw < 0xf) DevCon::Error("microVU Error: writeBackReg() [%d]", xmmReg[i].reg);
clearReg(i); // Invalidate any Cached Regs of same vf Reg
}
}
@ -271,7 +271,7 @@ public:
for (int i = 0; i < xmmTotal; i++) { // Invalidate any other read-only regs of same vfReg
if (i == reg) continue;
if (xmmReg[i].reg == xmmReg[reg].reg) {
if (xmmReg[i].xyzw && xmmReg[i].xyzw < 0xf) DevCon::Error("microVU Error: clearNeeded() [%d]", params xmmReg[i].reg);
if (xmmReg[i].xyzw && xmmReg[i].xyzw < 0xf) DevCon::Error("microVU Error: clearNeeded() [%d]", xmmReg[i].reg);
if (mergeRegs == 1) {
mVUmergeRegs(i, reg, xmmReg[reg].xyzw, 1);
xmmReg[i].xyzw = 0xf;

View File

@ -1111,10 +1111,10 @@ void __fastcall mVU_XGKICK_(u32 addr) {
u32 size = mtgsThread->PrepDataPacket(GIF_PATH_1, data, (0x4000-addr) >> 4);
u8 *pDest = mtgsThread->GetDataPacketPtr();
/* if((size << 4) > (0x4000-(addr&0x3fff))) {
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", params (addr&0x3fff) + (size << 4), (0x4000-(addr&0x3fff)) >> 4, size - ((0x4000-(addr&0x3fff)) >> 4));
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", (addr&0x3fff) + (size << 4), (0x4000-(addr&0x3fff)) >> 4, size - ((0x4000-(addr&0x3fff)) >> 4));
memcpy_aligned(pDest, microVU1.regs->Mem + addr, 0x4000-(addr&0x3fff));
size -= (0x4000-(addr&0x3fff)) >> 4;
//DevCon::Notice("Size left %x", params size);
//DevCon::Notice("Size left %x", size);
pDest += 0x4000-(addr&0x3fff);
memcpy_aligned(pDest, microVU1.regs->Mem, size<<4);
}

View File

@ -376,7 +376,7 @@ void recCOP2_BC2();
void recCOP2_SPEC1();
void recCOP2_SPEC2();
void rec_C2UNK() {
Console::Error("Cop2 bad opcode: %x", params cpuRegs.code);
Console::Error("Cop2 bad opcode: %x", cpuRegs.code);
}
// This is called by EE Recs to setup sVU info, this isn't needed for mVU Macro (cottonvibes)

View File

@ -277,7 +277,7 @@ typedef u32 (__fastcall *mVUCall)(void*, void*);
#define mVUcacheCheck(ptr, start, limit) { \
uptr diff = ptr - start; \
if (diff >= limit) { \
Console::Status("microVU%d: Program cache limit reached. Size = 0x%x", params mVU->index, diff); \
Console::Status("microVU%d: Program cache limit reached. Size = 0x%x", mVU->index, diff); \
mVUreset(mVU); \
} \
}

View File

@ -214,7 +214,7 @@ mVUop(mVULowerOP_T3_11) { mVULowerOP_T3_11_OPCODE [((mVU->code >> 6) & 0x1f)](mX
mVUop(mVUopU) { mVU_UPPER_OPCODE [ (mVU->code & 0x3f) ](mX); } // Gets Upper Opcode
mVUop(mVUopL) { mVULOWER_OPCODE [ (mVU->code >> 25) ](mX); } // Gets Lower Opcode
mVUop(mVUunknown) {
pass2 { Console::Error("microVU%d: Unknown Micro VU opcode called (%x) [%04x]\n", params getIndex, mVU->code, xPC); }
pass2 { Console::Error("microVU%d: Unknown Micro VU opcode called (%x) [%04x]\n", getIndex, mVU->code, xPC); }
pass3 { mVUlog("Unknown", mVU->code); }
}

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@ -1992,10 +1992,10 @@ void VU1XGKICK_MTGSTransfer(u32 *pMem, u32 addr)
/* if((size << 4) > (0x4000-(addr&0x3fff)))
{
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", params (addr&0x3fff) + (size << 4), (0x4000-(addr&0x3fff)) >> 4, size - ((0x4000-(addr&0x3fff)) >> 4));
//DevCon::Notice("addr + Size = 0x%x, transferring %x then doing %x", (addr&0x3fff) + (size << 4), (0x4000-(addr&0x3fff)) >> 4, size - ((0x4000-(addr&0x3fff)) >> 4));
memcpy_aligned(pmem, (u8*)pMem+addr, 0x4000-(addr&0x3fff));
size -= (0x4000-(addr&0x3fff)) >> 4;
//DevCon::Notice("Size left %x", params size);
//DevCon::Notice("Size left %x", size);
pmem += 0x4000-(addr&0x3fff);
memcpy_aligned(pmem, (u8*)pMem, size<<4);
}

View File

@ -392,7 +392,7 @@ void _recvuFlushFDIV(VURegs * VU) {
if (VU->fdiv.enable == 0) return;
cycle = VU->fdiv.Cycle + 1 - (vucycle - VU->fdiv.sCycle); //VU->fdiv.Cycle contains the latency minus 1 (6 or 12)
// Console::WriteLn("waiting FDIV pipe %d", params cycle);
// Console::WriteLn("waiting FDIV pipe %d", cycle);
VU->fdiv.enable = 0;
vucycle+= cycle;
}
@ -403,7 +403,7 @@ void _recvuFlushEFU(VURegs * VU) {
if (VU->efu.enable == 0) return;
cycle = VU->efu.Cycle - (vucycle - VU->efu.sCycle);
// Console::WriteLn("waiting FDIV pipe %d", params cycle);
// Console::WriteLn("waiting FDIV pipe %d", cycle);
VU->efu.enable = 0;
vucycle+= cycle;
}

View File

@ -456,7 +456,7 @@ void SuperVUReset(int vuindex)
}
else
{
DbgCon::Status("SuperVU reset [VU%d] > Resetting the recs and junk", params vuindex);
DbgCon::Status("SuperVU reset [VU%d] > Resetting the recs and junk", vuindex);
list<VuFunctionHeader*>::iterator it;
if (recVUHeaders[vuindex]) memset(recVUHeaders[vuindex], 0, sizeof(VuFunctionHeader*) * (s_MemSize[vuindex] / 8));
if (recVUBlocks[vuindex]) memset(recVUBlocks[vuindex], 0, sizeof(VuBlockHeader) * (s_MemSize[vuindex] / 8));
@ -690,7 +690,7 @@ void SuperVUDumpBlock(list<VuBaseBlock*>& blocks, int vuindex)
{
char command[255];
FILE* fasm = fopen("mydump1", "wb");
//Console::WriteLn("writing: %x, %x", params (*itblock)->startpc, (uptr)(*itblock)->pendcode - (uptr)(*itblock)->pcode);
//Console::WriteLn("writing: %x, %x", (*itblock)->startpc, (uptr)(*itblock)->pendcode - (uptr)(*itblock)->pcode);
fwrite((*itblock)->pcode, 1, (uptr)(*itblock)->pendcode - (uptr)(*itblock)->pcode, fasm);
fclose(fasm);
sprintf(command, "objdump -D --target=binary --architecture=i386 -M intel mydump1 > tempdump");
@ -837,7 +837,7 @@ static VuFunctionHeader* SuperVURecompileProgram(u32 startpc, int vuindex)
{
assert(vuindex < 2);
assert(s_recVUPtr != NULL);
//Console::WriteLn("svu%c rec: %x", params '0'+vuindex, startpc);
//Console::WriteLn("svu%c rec: %x", '0'+vuindex, startpc);
// if recPtr reached the mem limit reset whole mem
if (((uptr)s_recVUPtr - (uptr)s_recVUMem) >= VU_EXESIZE - 0x40000)
@ -946,7 +946,7 @@ static int _recbranchAddr(u32 vucode)
s32 bpc = pc + (_Imm11_ << 3);
/*
if ( bpc < 0 ) {
Console::WriteLn("zerorec branch warning: bpc < 0 ( %x ); Using unsigned imm11", params bpc);
Console::WriteLn("zerorec branch warning: bpc < 0 ( %x ); Using unsigned imm11", bpc);
bpc = pc + (_UImm11_ << 3);
}*/
bpc &= (s_MemSize[s_vu] - 1);
@ -1032,7 +1032,7 @@ static VuInstruction* getDelayInst(VuInstruction* pInst)
}
else break;
}
if (delay > 1) DevCon::WriteLn("supervu: %d cycle branch delay detected: %x %x", params delay - 1, pc, s_pFnHeader->startpc);
if (delay > 1) DevCon::WriteLn("supervu: %d cycle branch delay detected: %x %x", delay - 1, pc, s_pFnHeader->startpc);
return pDelayInst;
}
#endif
@ -1040,7 +1040,7 @@ static VuInstruction* getDelayInst(VuInstruction* pInst)
static VuBaseBlock* SuperVUBuildBlocks(VuBaseBlock* parent, u32 startpc, const VUPIPELINES& pipes)
{
// check if block already exists
//Console::WriteLn("startpc %x", params startpc);
//Console::WriteLn("startpc %x", startpc);
startpc &= (s_vu ? 0x3fff : 0xfff);
VuBlockHeader* pbh = &recVUBlocks[s_vu][startpc/8];
@ -1205,7 +1205,7 @@ static VuBaseBlock* SuperVUBuildBlocks(VuBaseBlock* parent, u32 startpc, const V
if ((ptr[0]&0xc0))
{
// sometimes full sticky bits are needed (simple series 2000 - oane chapara)
//Console::WriteLn("needSticky: %x-%x", params s_pFnHeader->startpc, startpc);
//Console::WriteLn("needSticky: %x-%x", s_pFnHeader->startpc, startpc);
needFullStatusFlag = 2;
}
break;
@ -1217,7 +1217,7 @@ static VuBaseBlock* SuperVUBuildBlocks(VuBaseBlock* parent, u32 startpc, const V
if (pc >= s_MemSize[s_vu])
{
Console::Error("inf vu0 prog %x", params startpc);
Console::Error("inf vu0 prog %x", startpc);
break;
}
}
@ -3205,7 +3205,7 @@ void VuBaseBlock::Recompile()
break;
default:
DevCon::Error("Bad branch %x\n", params branch);
DevCon::Error("Bad branch %x\n", branch);
assert(0);
break;
}
@ -3817,7 +3817,7 @@ void VuInstruction::Recompile(list<VuInstruction>::iterator& itinst, u32 vuxyz)
#ifdef PCSX2_DEVBUILD
if (regs[1].VIread & regs[0].VIwrite & ~((1 << REG_Q) | (1 << REG_P) | (1 << REG_VF0_FLAG) | (1 << REG_ACC_FLAG)))
{
Console::Notice("*PCSX2*: Warning, VI write to the same reg %x in both lower/upper cycle %x", params regs[1].VIread & regs[0].VIwrite, s_pCurBlock->startpc);
Console::Notice("*PCSX2*: Warning, VI write to the same reg %x in both lower/upper cycle %x", regs[1].VIread & regs[0].VIwrite, s_pCurBlock->startpc);
}
#endif
@ -3834,7 +3834,7 @@ void VuInstruction::Recompile(list<VuInstruction>::iterator& itinst, u32 vuxyz)
if (vfwrite[0] == vfwrite[1])
{
//Console::WriteLn("*PCSX2*: Warning, VF write to the same reg in both lower/upper cycle %x", params s_pCurBlock->startpc);
//Console::WriteLn("*PCSX2*: Warning, VF write to the same reg in both lower/upper cycle %x", s_pCurBlock->startpc);
}
if (vfread0[0] == vfwrite[1] || vfread1[0] == vfwrite[1])

View File

@ -81,7 +81,7 @@ int LoadPatch( const wxString& crc )
}
else
{
Console::WriteLn("XML Patch Loader: '%s' Found", params pfile.c_str() );
Console::WriteLn("XML Patch Loader: '%s' Found", pfile.c_str() );
}
TiXmlNode *root = doc.FirstChild("GAME");
@ -95,7 +95,7 @@ int LoadPatch( const wxString& crc )
const char *title=rootelement->Attribute("title");
if(title)
Console::WriteLn("XML Patch Loader: Game Title: %s", params title);
Console::WriteLn("XML Patch Loader: Game Title: %s", title);
int result=LoadGroup(root,-1);
if(result) {
@ -117,7 +117,7 @@ int LoadGroup(TiXmlNode *group,int gParent)
const char *gtitle=groupelement->Attribute("title");
if(gtitle)
Console::WriteLn("XML Patch Loader: Group Title: %s", params gtitle);
Console::WriteLn("XML Patch Loader: Group Title: %s", gtitle);
const char *enable=groupelement->Attribute("enabled");
bool gEnabled=true;
@ -136,7 +136,7 @@ int LoadGroup(TiXmlNode *group,int gParent)
TiXmlElement *cmelement = comment->ToElement();
const char *comment = cmelement->GetText();
if(comment)
Console::WriteLn("XML Patch Loader: Group Comment:\n%s\n---", params comment);
Console::WriteLn("XML Patch Loader: Group Comment:\n%s\n---", comment);
}
string t;
@ -240,7 +240,7 @@ int LoadGroup(TiXmlNode *group,int gParent)
const char *value=celement->Attribute("value");
if(ptitle) {
Console::WriteLn("XML Patch Loader: Patch title: %s", params ptitle);
Console::WriteLn("XML Patch Loader: Patch title: %s", ptitle);
}
bool penabled=gEnabled;