staging: sm750fb: Fix if/else/for/switch braces style
authorHelen Fornazier <helen.fornazier@gmail.com>
Thu, 26 Mar 2015 17:09:14 +0000 (14:09 -0300)
committerGreg Kroah-Hartman <gregkh@linuxfoundation.org>
Thu, 26 Mar 2015 23:10:40 +0000 (00:10 +0100)
This patch fixes the checkpatch.pl errors:

ERROR: that open brace { should be on the previous line
ERROR: else should follow close brace '}'
WARNING: braces {} are not necessary for single statement blocks
ERROR: space required before the open brace '{'

Signed-off-by: Helen Fornazier <helen.fornazier@gmail.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
drivers/staging/sm750fb/ddk750_chip.c

index c931e831f0b08af76e3b0bc8410ddf7d42733d65..de7fa4ab4ed2cbcf4b8261527f80b2a7b884e110 100644 (file)
@@ -21,21 +21,14 @@ logical_chip_type_t getChipType(void)
        physicalRev = revId750;
 
        if (physicalID == 0x718)
-       {
                chip = SM718;
-       }
-       else if (physicalID == 0x750)
-       {
+       else if (physicalID == 0x750) {
                chip = SM750;
                /* SM750 and SM750LE are different in their revision ID only. */
-               if (physicalRev == SM750LE_REVISION_ID){
+               if (physicalRev == SM750LE_REVISION_ID)
                        chip = SM750LE;
-               }
-       }
-       else
-       {
+       } else
                chip = SM_UNKNOWN;
-       }
 
        return chip;
 }
@@ -63,8 +56,7 @@ unsigned int getPllValue(clock_type_t clockType, pll_value_t *pPLL)
        pPLL->inputFreq = DEFAULT_INPUT_CLOCK;
        pPLL->clockType = clockType;
 
-       switch (clockType)
-       {
+       switch (clockType) {
        case MXCLK_PLL:
                ulPllReg = PEEK32(MXCLK_PLL_CTRL);
                break;
@@ -118,8 +110,7 @@ void setChipClock(unsigned int frequency)
                return;
 #endif
 
-       if (frequency != 0)
-       {
+       if (frequency != 0) {
                /*
                * Set up PLL, a structure to hold the value to be set in clocks.
                */
@@ -148,8 +139,7 @@ void setMemoryClock(unsigned int frequency)
        if (getChipType() == SM750LE)
                return;
 #endif
-       if (frequency != 0)
-       {
+       if (frequency != 0) {
                /* Set the frequency to the maximum frequency that the DDR Memory can take
                which is 336MHz. */
                if (frequency > MHz(336))
@@ -160,8 +150,7 @@ void setMemoryClock(unsigned int frequency)
 
                /* Set the corresponding divisor in the register. */
                ulReg = PEEK32(CURRENT_GATE);
-               switch(divisor)
-               {
+               switch(divisor) {
                default:
                case 1:
                        ulReg = FIELD_SET(ulReg, CURRENT_GATE, M2XCLK, DIV_1);
@@ -198,8 +187,7 @@ void setMasterClock(unsigned int frequency)
        if (getChipType() == SM750LE)
                return;
 #endif
-       if (frequency != 0)
-       {
+       if (frequency != 0) {
                /* Set the frequency to the maximum frequency that the SM750 engine can
                run, which is about 190 MHz. */
                if (frequency > MHz(190))
@@ -210,8 +198,7 @@ void setMasterClock(unsigned int frequency)
 
                /* Set the corresponding divisor in the register. */
                ulReg = PEEK32(CURRENT_GATE);
-               switch(divisor)
-               {
+               switch(divisor) {
                default:
                case 3:
                        ulReg = FIELD_SET(ulReg, CURRENT_GATE, MCLK, DIV_3);
@@ -248,7 +235,7 @@ unsigned int ddk750_getVMSize(void)
 
        /* get frame buffer size from GPIO */
        reg = FIELD_GET(PEEK32(MISC_CTRL),MISC_CTRL,LOCALMEM_SIZE);
-       switch(reg){
+       switch(reg) {
        case MISC_CTRL_LOCALMEM_SIZE_8M:  data = MB(8);  break; /* 8  Mega byte */
        case MISC_CTRL_LOCALMEM_SIZE_16M: data = MB(16); break; /* 16 Mega byte */
        case MISC_CTRL_LOCALMEM_SIZE_32M: data = MB(32); break; /* 32 Mega byte */
@@ -265,7 +252,7 @@ int ddk750_initHw(initchip_param_t * pInitParam)
        unsigned int ulReg;
 #if 0
        //move the code to map regiter function.
-       if(getChipType() == SM718){
+       if(getChipType() == SM718) {
                /* turn on big endian bit*/
                ulReg = PEEK32(0x74);
                /* now consider register definition in a big endian pattern*/
@@ -285,13 +272,13 @@ int ddk750_initHw(initchip_param_t * pInitParam)
        ulReg = FIELD_SET(ulReg,CURRENT_GATE,LOCALMEM,ON);
        setCurrentGate(ulReg);
 
-       if(getChipType() != SM750LE){
+       if(getChipType() != SM750LE) {
                /*      set panel pll and graphic mode via mmio_88 */
                ulReg = PEEK32(VGA_CONFIGURATION);
                ulReg = FIELD_SET(ulReg,VGA_CONFIGURATION,PLL,PANEL);
                ulReg = FIELD_SET(ulReg,VGA_CONFIGURATION,MODE,GRAPHIC);
                POKE32(VGA_CONFIGURATION,ulReg);
-       }else{
+       } else {
 #if defined(__i386__) || defined( __x86_64__)
                /* set graphic mode via IO method */
                outb_p(0x88,0x3d4);
@@ -313,8 +300,7 @@ int ddk750_initHw(initchip_param_t * pInitParam)
           the system might hang when sw accesses the memory.
           The memory should be resetted after changing the MXCLK.
         */
-       if (pInitParam->resetMemory == 1)
-       {
+       if (pInitParam->resetMemory == 1) {
                ulReg = PEEK32(MISC_CTRL);
                ulReg = FIELD_SET(ulReg, MISC_CTRL, LOCALMEM_RESET, RESET);
                POKE32(MISC_CTRL, ulReg);
@@ -323,8 +309,7 @@ int ddk750_initHw(initchip_param_t * pInitParam)
                POKE32(MISC_CTRL, ulReg);
        }
 
-       if (pInitParam->setAllEngOff == 1)
-       {
+       if (pInitParam->setAllEngOff == 1) {
                enable2DEngine(0);
 
                /* Disable Overlay, if a former application left it on */
@@ -445,8 +430,7 @@ unsigned int calcPllValue(unsigned int request_orig,pll_value_t *pll)
        pllcalparam * xparm;
 
 #if 1
-       if (getChipType() == SM750LE)
-       {
+       if (getChipType() == SM750LE) {
                /* SM750LE don't have prgrammable PLL and M/N values to work on.
                Just return the requested clock. */
                return request_orig;
@@ -460,36 +444,33 @@ unsigned int calcPllValue(unsigned int request_orig,pll_value_t *pll)
 
        /* for MXCLK register , no POD provided, so need be treated differently */
 
-       if(pll->clockType != MXCLK_PLL){
+       if(pll->clockType != MXCLK_PLL) {
                xparm = &xparm_PIXEL[0];
                xcnt = sizeof(xparm_PIXEL)/sizeof(xparm_PIXEL[0]);
-       }else{
+       } else {
                xparm = &xparm_MXCLK[0];
                xcnt = sizeof(xparm_MXCLK)/sizeof(xparm_MXCLK[0]);
        }
 
 
-       for(N = 15;N>1;N--)
-       {
+       for(N = 15;N>1;N--) {
                /* RN will not exceed maximum long if @request <= 285 MHZ (for 32bit cpu) */
                RN = N * request;
                quo = RN / input;
                rem = RN % input;/* rem always small than 14318181 */
                fl_quo = (rem * 10000 /input);
 
-               for(d = xcnt - 1;d >= 0;d--){
+               for(d = xcnt - 1;d >= 0;d--) {
                        X = xparm[d].value;
                        M = quo*X;
                        M += fl_quo * X / 10000;
                        /* round step */
                        M += (fl_quo*X % 10000)>5000?1:0;
-                       if(M < 256 && M > 0)
-                       {
+                       if(M < 256 && M > 0) {
                                unsigned int diff;
                                tmpClock = pll->inputFreq *M / N / X;
                                diff = absDiff(tmpClock,request_orig);
-                               if(diff < miniDiff)
-                               {
+                               if(diff < miniDiff) {
                                        pll->M = M;
                                        pll->N = N;
                                        pll->OD = xparm[d].od;
@@ -541,8 +522,7 @@ pll_value_t *pPLL           /* Structure to hold the value to be set in PLL */
        podPower = twoToPowerOfx(POD);
 
        /* OD has only 2 bits [15:14] and its value must between 0 to 3 */
-       for (OD=0; OD<=3; OD++)
-       {
+       for (OD=0; OD<=3; OD++) {
                /* Work out 2 to the power of OD */
                odPower = twoToPowerOfx(OD);
 
@@ -555,8 +535,7 @@ pll_value_t *pPLL           /* Structure to hold the value to be set in PLL */
 
                /* N has 4 bits [11:8] and its value must between 2 and 15.
                The N == 1 will behave differently --> Result is not correct. */
-       for (N=2; N<=15; N++)
-       {
+       for (N=2; N<=15; N++) {
                /* The formula for PLL is ulRequestClk = inputFreq * M / N / (2^OD)
                In the following steps, we try to work out a best M value given the others are known.
                To avoid decimal calculation, we use 1000 as multiplier for up to 3 decimal places of accuracy.
@@ -565,16 +544,14 @@ pll_value_t *pPLL           /* Structure to hold the value to be set in PLL */
                M = roundedDiv(M, 1000);
 
                /* M field has only 8 bits, reject value bigger than 8 bits */
-               if (M < 256)
-               {
+               if (M < 256) {
                        /* Calculate the actual clock for a given M & N */
                        pllClk = pPLL->inputFreq * M / N / odPower / podPower;
 
                        /* How much are we different from the requirement */
                        diff = absDiff(pllClk, ulRequestClk);
 
-                       if (diff < bestDiff)
-                       {
+                       if (diff < bestDiff) {
                                bestDiff = diff;
 
                                /* Store M and N values */