make new code like old code

Variable declarations at top of function, separate from initialization. Use == 0 instead of ! for checking pointers. Consistent spacing around {, *, casts. Declare 0-parameter functions as (void) not (). Integer valued functions return -1 on failure, 0 on success.
2011-01-11 13:01:13 -05:00 · 2011-01-11 13:01:13 -05:00 · 1a81e38b17
parent 240679608c
commit 1a81e38b17
21 changed files with 227 additions and 199 deletions
--- a/console.c
+++ b/console.c
@ -27,15 +27,16 @@ printint(int xx, int base, int sgn)
 {
  static char digits[] = "0123456789abcdef";
  char buf[16];
-  int i = 0, neg = 0;
+  int i, neg;
  uint x;
-  if(sgn && xx < 0){
+  if(sgn && (neg = xx < 0)){
    neg = 1;
    x = -xx;
  } else
    x = xx;
  i = 0;
  do{
    buf[i++] = digits[x % base];
  }while((x /= base) != 0);
--- a/defs.h
+++ b/defs.h
@ -62,7 +62,7 @@ void            ioapicinit(void);
 // kalloc.c
 char*           kalloc(void);
 void            kfree(char*);
-void            kinit();
+void            kinit(void);
 // kbd.c
 void            kbdintr(void);
@ -117,8 +117,8 @@ void            getcallerpcs(void*, uint*);
 int             holding(struct spinlock*);
 void            initlock(struct spinlock*, char*);
 void            release(struct spinlock*);
-void            pushcli();
+void            pushcli(void);
-void            popcli();
+void            popcli(void);
 // string.c
 int             memcmp(const void*, const void*, uint);
@ -164,7 +164,7 @@ void            inituvm(pde_t*, char*, uint);
 int             loaduvm(pde_t*, char*, struct inode *, uint, uint);
 pde_t*          copyuvm(pde_t*,uint);
 void            switchuvm(struct proc*);
-void            switchkvm();
+void            switchkvm(void);
 int             copyout(pde_t *pgdir, uint va, void *buf, uint len);
 // number of elements in fixed-size array
--- a/exec.c
+++ b/exec.c
@ -10,16 +10,17 @@ int
 exec(char *path, char **argv)
 {
  char *s, *last;
-  int i, off;
+  int i, off, argc;
-  uint sz = 0;
+  uint sz, sp, strings[MAXARG];
  struct elfhdr elf;
-  struct inode *ip = 0;
+  struct inode *ip;
  struct proghdr ph;
-  pde_t *pgdir = 0, *oldpgdir;
+  pde_t *pgdir, *oldpgdir;
  if((ip = namei(path)) == 0)
    return -1;
  ilock(ip);
  pgdir = 0;
  // Check ELF header
  if(readi(ip, (char*)&elf, 0, sizeof(elf)) < sizeof(elf))
@ -27,10 +28,11 @@ exec(char *path, char **argv)
  if(elf.magic != ELF_MAGIC)
    goto bad;
-  if(!(pgdir = setupkvm()))
+  if((pgdir = setupkvm()) == 0)
    goto bad;
  // Load program into memory.
  sz = 0;
  for(i=0, off=elf.phoff; i<elf.phnum; i++, off+=sizeof(ph)){
    if(readi(ip, (char*)&ph, off, sizeof(ph)) != sizeof(ph))
      goto bad;
@ -38,9 +40,9 @@ exec(char *path, char **argv)
      continue;
    if(ph.memsz < ph.filesz)
      goto bad;
-    if(!(sz = allocuvm(pgdir, sz, ph.va + ph.memsz)))
+    if((sz = allocuvm(pgdir, sz, ph.va + ph.memsz)) == 0)
      goto bad;
-    if(!loaduvm(pgdir, (char *)ph.va, ip, ph.offset, ph.filesz))
+    if(loaduvm(pgdir, (char*)ph.va, ip, ph.offset, ph.filesz) < 0)
      goto bad;
  }
  iunlockput(ip);
@ -48,7 +50,7 @@ exec(char *path, char **argv)
  // Allocate a one-page stack at the next page boundary
  sz = PGROUNDUP(sz);
-  if(!(sz = allocuvm(pgdir, sz, sz + PGSIZE)))
+  if((sz = allocuvm(pgdir, sz, sz + PGSIZE)) == 0)
    goto bad;
  // initialize stack content:
@ -64,17 +66,15 @@ exec(char *path, char **argv)
  // argc                             -- argc argument to main()
  // ffffffff                         -- return PC for main() call
-  uint sp = sz;
+  sp = sz;
  // count arguments
  int argc;
  for(argc = 0; argv[argc]; argc++)
    ;
  if(argc >= MAXARG)
    goto bad;
  // push strings and remember where they are
  uint strings[MAXARG];
  for(i = argc - 1; i >= 0; --i){
    sp -= strlen(argv[i]) + 1;
    strings[i] = sp;
--- a/ide.c
+++ b/ide.c
@ -131,7 +131,7 @@ iderw(struct buf *b)
  if((b->flags & (B_VALID|B_DIRTY)) == B_VALID)
    panic("iderw: nothing to do");
  if(b->dev != 0 && !havedisk1)
-    panic("idrw: ide disk 1 not present");
+    panic("iderw: ide disk 1 not present");
  acquire(&idelock);
--- a/kalloc.c
+++ b/kalloc.c
@ -23,8 +23,10 @@ extern char end[]; // first address after kernel loaded from ELF file
 void
 kinit(void)
 {
  char *p;
  initlock(&kmem.lock, "kmem");
-  char *p = (char*)PGROUNDUP((uint)end);
+  p = (char*)PGROUNDUP((uint)end);
  for(; p + PGSIZE - 1 < (char*)PHYSTOP; p += PGSIZE)
    kfree(p);
 }
@ -39,7 +41,7 @@ kfree(char *v)
 {
  struct run *r;
-  if(((uint) v) % PGSIZE || v < end || (uint)v >= PHYSTOP) 
+  if((uint)v % PGSIZE || v < end || (uint)v >= PHYSTOP) 
    panic("kfree");
  // Fill with junk to catch dangling refs.
@ -56,7 +58,7 @@ kfree(char *v)
 // Returns a pointer that the kernel can use.
 // Returns 0 if the memory cannot be allocated.
 char*
-kalloc()
+kalloc(void)
 {
  struct run *r;
--- a/main.c
+++ b/main.c
@ -7,7 +7,7 @@
 static void bootothers(void);
 static void mpmain(void);
-void jkstack(void)  __attribute__((noreturn));
+void jmpkstack(void)  __attribute__((noreturn));
 void mainc(void);
 // Bootstrap processor starts running C code here.
@ -20,19 +20,20 @@ main(void)
  lapicinit(mpbcpu());
  seginit();       // set up segments
  kinit();         // initialize memory allocator
-  jkstack();       // call mainc() on a properly-allocated stack 
+  jmpkstack();       // call mainc() on a properly-allocated stack 
 }
 void
-jkstack(void)
+jmpkstack(void)
 {
-  char *kstack = kalloc();
+  char *kstack, *top;
-  if(!kstack)
+  
-    panic("jkstack\n");
+  kstack = kalloc();
-  char *top = kstack + PGSIZE;
+  if(kstack == 0)
-  asm volatile("movl %0,%%esp" : : "r" (top));
+    panic("jmpkstack kalloc");
-  asm volatile("call mainc");
+  top = kstack + PGSIZE;
-  panic("jkstack");
+  asm volatile("movl %0,%%esp; call mainc" : : "r" (top));
  panic("jmpkstack");
 }
 // Set up hardware and software.
@ -87,8 +88,8 @@ bootothers(void)
  struct cpu *c;
  char *stack;
-  // Write bootstrap code to unused memory at 0x7000.  The linker has
+  // Write bootstrap code to unused memory at 0x7000.
-  // placed the start of bootother.S there.
+  // The linker has placed the image of bootother.S in _binary_bootother_start.
  code = (uchar*)0x7000;
  memmove(code, _binary_bootother_start, (uint)_binary_bootother_size);
@ -110,4 +111,3 @@ bootothers(void)
      ;
  }
 }
--- a/mmu.h
+++ b/mmu.h
@ -98,10 +98,10 @@ struct segdesc {
 //  \--- PDX(la) --/ \--- PTX(la) --/ 
 // page directory index
-#define PDX(la)		((((uint) (la)) >> PDXSHIFT) & 0x3FF)
+#define PDX(la)		(((uint)(la) >> PDXSHIFT) & 0x3FF)
 // page table index
-#define PTX(la)		((((uint) (la)) >> PTXSHIFT) & 0x3FF)
+#define PTX(la)		(((uint)(la) >> PTXSHIFT) & 0x3FF)
 // construct linear address from indexes and offset
 #define PGADDR(d, t, o)	((uint)((d) << PDXSHIFT | (t) << PTXSHIFT | (o)))
@ -109,7 +109,7 @@ struct segdesc {
 // turn a kernel linear address into a physical address.
 // all of the kernel data structures have linear and
 // physical addresses that are equal.
-#define PADDR(a)       ((uint) a)
+#define PADDR(a)       ((uint)(a))
 // Page directory and page table constants.
 #define NPDENTRIES	1024		// page directory entries per page directory
--- a/mp.c
+++ b/mp.c
@ -114,7 +114,7 @@ mpinit(void)
    case MPPROC:
      proc = (struct mpproc*)p;
      if(ncpu != proc->apicid){
-        cprintf("mpinit: ncpu=%d apicpid=%d", ncpu, proc->apicid);
+        cprintf("mpinit: ncpu=%d apicpid=%d\n", ncpu, proc->apicid);
        panic("mpinit");
      }
      if(proc->flags & MPBOOT)
--- a/proc.c
+++ b/proc.c
@ -120,7 +120,7 @@ userinit(void)
  p = allocproc();
  initproc = p;
-  if(!(p->pgdir = setupkvm()))
+  if((p->pgdir = setupkvm()) == 0)
    panic("userinit: out of memory?");
  inituvm(p->pgdir, _binary_initcode_start, (int)_binary_initcode_size);
  p->sz = PGSIZE;
@ -144,12 +144,14 @@ userinit(void)
 int
 growproc(int n)
 {
-  uint sz = proc->sz;
+  uint sz;
  sz = proc->sz;
  if(n > 0){
-    if(!(sz = allocuvm(proc->pgdir, sz, sz + n)))
+    if((sz = allocuvm(proc->pgdir, sz, sz + n)) == 0)
      return -1;
  } else if(n < 0){
-    if(!(sz = deallocuvm(proc->pgdir, sz, sz + n)))
+    if((sz = deallocuvm(proc->pgdir, sz, sz + n)) == 0)
      return -1;
  }
  proc->sz = sz;
@ -171,7 +173,7 @@ fork(void)
    return -1;
  // Copy process state from p.
-  if(!(np->pgdir = copyuvm(proc->pgdir, proc->sz))){
+  if((np->pgdir = copyuvm(proc->pgdir, proc->sz)) == 0){
    kfree(np->kstack);
    np->kstack = 0;
    np->state = UNUSED;
--- a/stressfs.c
+++ b/stressfs.c
@ -14,20 +14,19 @@
 int
 main(int argc, char *argv[])
 {
-  int i;
+  int fd, i;
  char path[] = "stressfs0";
  printf(1, "stressfs starting\n");
-  for(i = 0; i < 4; i++){
+  for(i = 0; i < 4; i++)
-    if(fork() > 0){
+    if(fork() > 0)
      break;
    }
  }
  printf(1, "%d\n", i);
  char path[] = "stressfs0";
  path[8] += i;
-  int fd = open(path, O_CREATE | O_RDWR);
+  fd = open(path, O_CREATE | O_RDWR);
  for(i = 0; i < 100; i++)
    printf(fd, "%d\n", i);
  close(fd);
--- a/syscall.c
+++ b/syscall.c
@ -44,8 +44,7 @@ fetchstr(struct proc *p, uint addr, char **pp)
 int
 argint(int n, int *ip)
 {
-  int x = fetchint(proc, proc->tf->esp + 4 + 4*n, ip);
+  return fetchint(proc, proc->tf->esp + 4 + 4*n, ip);
  return x;
 }
 // Fetch the nth word-sized system call argument as a pointer
--- a/user.h
+++ b/user.h
@ -18,10 +18,10 @@ int link(char*, char*);
 int mkdir(char*);
 int chdir(char*);
 int dup(int);
-int getpid();
+int getpid(void);
 char* sbrk(int);
 int sleep(int);
-int uptime();
+int uptime(void);
 // ulib.c
 int stat(char*, struct stat*);
--- a/usertests.c
+++ b/usertests.c
@ -1237,16 +1237,18 @@ forktest(void)
 void
 sbrktest(void)
 {
-  int pid;
+  int fds[2], pid, pids[32], ppid;
-  char *oldbrk = sbrk(0);
+  char *a, *b, *c, *lastaddr, *oldbrk, *p, scratch;
  uint amt;
  printf(stdout, "sbrk test\n");
  oldbrk = sbrk(0);
  // can one sbrk() less than a page?
-  char *a = sbrk(0);
+  a = sbrk(0);
  int i;
  for(i = 0; i < 5000; i++){
-    char *b = sbrk(1);
+    b = sbrk(1);
    if(b != a){
      printf(stdout, "sbrk test failed %d %x %x\n", i, a, b);
      exit();
@ -1259,7 +1261,7 @@ sbrktest(void)
    printf(stdout, "sbrk test fork failed\n");
    exit();
  }
-  char *c = sbrk(1);
+  c = sbrk(1);
  c = sbrk(1);
  if(c != a + 1){
    printf(stdout, "sbrk test failed post-fork\n");
@ -1271,13 +1273,13 @@ sbrktest(void)
  // can one allocate the full 640K?
  a = sbrk(0);
-  uint amt = (640 * 1024) - (uint) a;
+  amt = (640 * 1024) - (uint)a;
-  char *p = sbrk(amt);
+  p = sbrk(amt);
  if(p != a){
    printf(stdout, "sbrk test failed 640K test, p %x a %x\n", p, a);
    exit();
  }
-  char *lastaddr = (char *)(640 * 1024 - 1);
+  lastaddr = (char*)(640 * 1024 - 1);
  *lastaddr = 99;
  // is one forbidden from allocating more than 640K?
@ -1321,8 +1323,8 @@ sbrktest(void)
  // can we read the kernel's memory?
  for(a = (char*)(640*1024); a < (char*)2000000; a += 50000){
-    int ppid = getpid();
+    ppid = getpid();
-    int pid = fork();
+    pid = fork();
    if(pid < 0){
      printf(stdout, "fork failed\n");
      exit();
@ -1338,8 +1340,6 @@ sbrktest(void)
  // if we run the system out of memory, does it clean up the last
  // failed allocation?
  sbrk(-(sbrk(0) - oldbrk));
  int pids[32];
  int fds[2];
  if(pipe(fds) != 0){
    printf(1, "pipe() failed\n");
    exit();
@ -1352,7 +1352,6 @@ sbrktest(void)
      // sit around until killed
      for(;;) sleep(1000);
    }
    char scratch;
    if(pids[i] != -1)
      read(fds[0], &scratch, 1);
  }
@ -1392,13 +1391,13 @@ validateint(int *p)
 void
 validatetest(void)
 {
-  int hi = 1100*1024;
+  int hi, pid;
  uint p;
  printf(stdout, "validate test\n");
  hi = 1100*1024;
  uint p;
  for(p = 0; p <= (uint)hi; p += 4096){
    int pid;
    if((pid = fork()) == 0){
      // try to crash the kernel by passing in a badly placed integer
      validateint((int*)p);
@ -1425,6 +1424,7 @@ void
 bsstest(void)
 {
  int i;
  printf(stdout, "bss test\n");
  for(i = 0; i < sizeof(uninit); i++){
    if(uninit[i] != '\0'){
--- a/vm.c
+++ b/vm.c
@ -42,23 +42,21 @@ seginit(void)
 static pte_t *
 walkpgdir(pde_t *pgdir, const void *va, int create)
 {
  uint r;
  pde_t *pde;
  pte_t *pgtab;
  pde = &pgdir[PDX(va)];
  if(*pde & PTE_P){
    pgtab = (pte_t*)PTE_ADDR(*pde);
-  } else if(!create || !(r = (uint) kalloc()))
+  } else {
    if(!create || (pgtab = (pte_t*)kalloc()) == 0)
      return 0;
  else {
    pgtab = (pte_t*) r;
    // Make sure all those PTE_P bits are zero.
    memset(pgtab, 0, PGSIZE);
    // The permissions here are overly generous, but they can
    // be further restricted by the permissions in the page table 
    // entries, if necessary.
-    *pde = PADDR(r) | PTE_P | PTE_W | PTE_U;
+    *pde = PADDR(pgtab) | PTE_P | PTE_W | PTE_U;
  }
  return &pgtab[PTX(va)];
 }
@ -69,13 +67,16 @@ walkpgdir(pde_t *pgdir, const void *va, int create)
 static int
 mappages(pde_t *pgdir, void *la, uint size, uint pa, int perm)
 {
-  char *a = PGROUNDDOWN(la);
+  char *a, *last;
-  char *last = PGROUNDDOWN(la + size - 1);
+  pte_t *pte;
-  while(1){
+  a = PGROUNDDOWN(la);
-    pte_t *pte = walkpgdir(pgdir, a, 1);
+  last = PGROUNDDOWN(la + size - 1);
  for(;;){
    pte = walkpgdir(pgdir, a, 1);
    if(pte == 0)
-      return 0;
+      return -1;
    if(*pte & PTE_P)
      panic("remap");
    *pte = pa | perm | PTE_P;
@ -84,7 +85,7 @@ mappages(pde_t *pgdir, void *la, uint size, uint pa, int perm)
    a += PGSIZE;
    pa += PGSIZE;
  }
-  return 1;
+  return 0;
 }
 // The mappings from logical to linear are one to one (i.e.,
@ -122,23 +123,26 @@ kvmalloc(void)
 pde_t*
 setupkvm(void)
 {
  pde_t *pgdir;
  extern char etext[];
-  char *rwstart = PGROUNDDOWN(etext);
+  char *rwstart;
-  uint rwlen = (uint)rwstart - 0x100000;
+  pde_t *pgdir;
  uint rwlen;
  rwstart = PGROUNDDOWN(etext);
  rwlen = (uint)rwstart - 0x100000;
  // Allocate page directory
-  if(!(pgdir = (pde_t *) kalloc()))
+  if((pgdir = (pde_t*)kalloc()) == 0)
    return 0;
  memset(pgdir, 0, PGSIZE);
  if(// Map IO space from 640K to 1Mbyte
-     !mappages(pgdir, (void *)USERTOP, 0x60000, USERTOP, PTE_W) ||
+     mappages(pgdir, (void*)USERTOP, 0x60000, USERTOP, PTE_W) < 0 ||
     // Map kernel instructions
-     !mappages(pgdir, (void *)0x100000, rwlen, 0x100000, 0) ||
+     mappages(pgdir, (void*)0x100000, rwlen, 0x100000, 0) < 0 ||
     // Map kernel data and free memory pool
-     !mappages(pgdir, rwstart, PHYSTOP-(uint)rwstart, (uint)rwstart, PTE_W) ||
+     mappages(pgdir, rwstart, PHYSTOP-(uint)rwstart, (uint)rwstart, PTE_W) < 0 ||
     // Map devices such as ioapic, lapic, ...
-     !mappages(pgdir, (void *)0xFE000000, 0x2000000, 0xFE000000, PTE_W))
+     mappages(pgdir, (void*)0xFE000000, 0x2000000, 0xFE000000, PTE_W) < 0)
    return 0;
  return pgdir;
 }
@ -190,13 +194,14 @@ switchuvm(struct proc *p)
 char*
 uva2ka(pde_t *pgdir, char *uva)
 {
-  pte_t *pte = walkpgdir(pgdir, uva, 0);
+  pte_t *pte;
  pte = walkpgdir(pgdir, uva, 0);
  if((*pte & PTE_P) == 0)
    return 0;
  if((*pte & PTE_U) == 0)
    return 0;
-  uint pa = PTE_ADDR(*pte);
+  return (char*)PTE_ADDR(*pte);
  return (char *)pa;
 }
 // Load the initcode into address 0 of pgdir.
@ -204,9 +209,11 @@ uva2ka(pde_t *pgdir, char *uva)
 void
 inituvm(pde_t *pgdir, char *init, uint sz)
 {
-  char *mem = kalloc();
+  char *mem;
  if(sz >= PGSIZE)
    panic("inituvm: more than a page");
  mem = kalloc();
  memset(mem, 0, PGSIZE);
  mappages(pgdir, 0, PGSIZE, PADDR(mem), PTE_W|PTE_U);
  memmove(mem, init, sz);
@ -223,15 +230,17 @@ loaduvm(pde_t *pgdir, char *addr, struct inode *ip, uint offset, uint sz)
  if((uint)addr % PGSIZE != 0)
    panic("loaduvm: addr must be page aligned\n");
  for(i = 0; i < sz; i += PGSIZE){
-    if(!(pte = walkpgdir(pgdir, addr+i, 0)))
+    if((pte = walkpgdir(pgdir, addr+i, 0)) == 0)
      panic("loaduvm: address should exist\n");
    pa = PTE_ADDR(*pte);
-    if(sz - i < PGSIZE) n = sz - i;
+    if(sz - i < PGSIZE)
-    else n = PGSIZE;
+      n = sz - i;
    else
      n = PGSIZE;
    if(readi(ip, (char*)pa, offset+i, n) != n)
-      return 0;
+      return -1;
  }
-  return 1;
+  return 0;
 }
 // Allocate memory to the process to bring its size from oldsz to
@ -241,12 +250,17 @@ loaduvm(pde_t *pgdir, char *addr, struct inode *ip, uint offset, uint sz)
 int
 allocuvm(pde_t *pgdir, uint oldsz, uint newsz)
 {
  char *a, *last, *mem;
  if(newsz > USERTOP)
    return 0;
-  char *a = (char *)PGROUNDUP(oldsz);
+  if(newsz < oldsz)
-  char *last = PGROUNDDOWN(newsz - 1);
+    return oldsz;
  a = (char*)PGROUNDUP(oldsz);
  last = PGROUNDDOWN(newsz - 1);
  for(; a <= last; a += PGSIZE){
-    char *mem = kalloc();
+    mem = kalloc();
    if(mem == 0){
      cprintf("allocuvm out of memory\n");
      deallocuvm(pgdir, newsz, oldsz);
@ -255,7 +269,7 @@ allocuvm(pde_t *pgdir, uint oldsz, uint newsz)
    memset(mem, 0, PGSIZE);
    mappages(pgdir, a, PGSIZE, PADDR(mem), PTE_W|PTE_U);
  }
-  return newsz > oldsz ? newsz : oldsz;
+  return newsz;
 }
 // Deallocate user pages to bring the process size from oldsz to
@ -265,19 +279,26 @@ allocuvm(pde_t *pgdir, uint oldsz, uint newsz)
 int
 deallocuvm(pde_t *pgdir, uint oldsz, uint newsz)
 {
-  char *a = (char *)PGROUNDUP(newsz);
+  char *a, *last;
-  char *last = PGROUNDDOWN(oldsz - 1);
+  pte_t *pte;
  uint pa;
  if(newsz >= oldsz)
    return oldsz;
  a = (char*)PGROUNDUP(newsz);
  last = PGROUNDDOWN(oldsz - 1);
  for(; a <= last; a += PGSIZE){
-    pte_t *pte = walkpgdir(pgdir, a, 0);
+    pte = walkpgdir(pgdir, a, 0);
    if(pte && (*pte & PTE_P) != 0){
-      uint pa = PTE_ADDR(*pte);
+      pa = PTE_ADDR(*pte);
      if(pa == 0)
        panic("kfree");
-      kfree((void *) pa);
+      kfree((char*)pa);
      *pte = 0;
    }
  }
-  return newsz < oldsz ? newsz : oldsz;
+  return newsz;
 }
 // Free a page table and all the physical memory pages
@ -287,14 +308,14 @@ freevm(pde_t *pgdir)
 {
  uint i;
-  if(!pgdir)
+  if(pgdir == 0)
    panic("freevm: no pgdir");
  deallocuvm(pgdir, USERTOP, 0);
  for(i = 0; i < NPDENTRIES; i++){
    if(pgdir[i] & PTE_P)
-      kfree((void *) PTE_ADDR(pgdir[i]));
+      kfree((char*)PTE_ADDR(pgdir[i]));
  }
-  kfree((void *) pgdir);
+  kfree((char*)pgdir);
 }
 // Given a parent process's page table, create a copy
@ -302,22 +323,23 @@ freevm(pde_t *pgdir)
 pde_t*
 copyuvm(pde_t *pgdir, uint sz)
 {
-  pde_t *d = setupkvm();
+  pde_t *d;
  pte_t *pte;
  uint pa, i;
  char *mem;
-  if(!d) return 0;
+  if((d = setupkvm()) == 0)
    return 0;
  for(i = 0; i < sz; i += PGSIZE){
-    if(!(pte = walkpgdir(pgdir, (void *)i, 0)))
+    if((pte = walkpgdir(pgdir, (void*)i, 0)) == 0)
      panic("copyuvm: pte should exist\n");
    if(!(*pte & PTE_P))
      panic("copyuvm: page not present\n");
    pa = PTE_ADDR(*pte);
-    if(!(mem = kalloc()))
+    if((mem = kalloc()) == 0)
      goto bad;
    memmove(mem, (char*)pa, PGSIZE);
-    if(!mappages(d, (void *)i, PGSIZE, PADDR(mem), PTE_W|PTE_U))
+    if(mappages(d, (void*)i, PGSIZE, PADDR(mem), PTE_W|PTE_U) < 0)
      goto bad;
  }
  return d;
@ -334,13 +356,16 @@ bad:
 int
 copyout(pde_t *pgdir, uint va, void *xbuf, uint len)
 {
-  char *buf = (char *) xbuf;
+  char *buf, *pa0;
  uint n, va0;
  buf = (char*)xbuf;
  while(len > 0){
-    uint va0 = (uint)PGROUNDDOWN(va);
+    va0 = (uint)PGROUNDDOWN(va);
-    char *pa0 = uva2ka(pgdir, (char*) va0);
+    pa0 = uva2ka(pgdir, (char*)va0);
    if(pa0 == 0)
-      return 0;
+      return -1;
-    uint n = PGSIZE - (va - va0);
+    n = PGSIZE - (va - va0);
    if(n > len)
      n = len;
    memmove(pa0 + (va - va0), buf, n);
@ -348,5 +373,5 @@ copyout(pde_t *pgdir, uint va, void *xbuf, uint len)
    buf += n;
    va = va0 + PGSIZE;
  }
-  return 1;
+  return 0;
 }