- Start rosapps rearrange and cleanup process.

[reactos.git] / rosapps / devutils / cputointel / From / dummycpu / DummyBrain.c

diff --git a/rosapps/devutils/cputointel/From/dummycpu/DummyBrain.c b/rosapps/devutils/cputointel/From/dummycpu/DummyBrain.c
deleted file mode 100644 (file)
index 67d20e2..0000000
--- a/rosapps/devutils/cputointel/From/dummycpu/DummyBrain.c
+++ /dev/null
@@ -1,95 +0,0 @@
-
-#include <stdio.h>
-#include <stdlib.h>
-#include "DummyBrain.h"
-#include "Dummy.h"
-#include "../../misc.h"
-
-
-
-/*
- * DummyBrain is example how you create you own cpu brain to translate from
- * cpu to intel assembler, I have not add DummyBrain to the loader it is not
- * need it in our example. When you write you own brain, it must be setup in
- * misc.c function LoadPFileImage and PEFileStart, PEFileStart maybe does not
- * need the brain you have writen so you do not need setup it there then.
- *
- * input param:
- *         cpu_buffer   : the memory buffer with loaded program we whant translate
- *         cpu_pos      : the positions in the cpu_buffer
- *         cpu_size     : the alloced memory size of the cpu_buffer
- *         BaseAddress  : the virtual memory address we setup to use.
- *         cpuarch      : the sub arch for the brain, example if it exists more one
- *                        cpu with same desgin but few other opcode or extend opcode
- *         outfp        : the output file pointer
- *
- * return value
- *         0            : Ok
- *         1            : unimplemt
- *         2            : Unkonwn Opcode
- *         3            : unimplement cpu
- *         4            : unknown machine
- */
-
-CPU_INT DummyBrain(  CPU_BYTE *cpu_buffer,
-                     CPU_UNINT cpu_pos,
-                     CPU_UNINT cpu_size,
-                     CPU_UNINT BaseAddress,
-                     CPU_UNINT cpuarch,
-                     FILE *outfp)
-{
-    CPU_UNINT cpu_oldpos;
-    CPU_INT cpuint;
-    CPU_INT retcode = 0;
-    CPU_INT retsize;
-
-    /* now we start the process */
-    while (cpu_pos<cpu_size)
-    {
-        cpu_oldpos = cpu_pos;
-
-        /* use the GetData32Be or GetData32Le
-           to read from the memory the
-           Le is for small endian and the
-           Be is for big endian
-           the 32 is how many bits we should read
-         */
-        cpuint = GetData32Be(&cpu_buffer[cpu_pos]);
-
-        /* Add */
-        if ((cpuint - (cpuint & GetMaskByte(cpuDummyInit_Add))) == ConvertBitToByte(cpuDummyInit_Add))
-        {
-            retsize = DUMMY_Add( outfp, cpu_buffer, cpu_pos, cpu_size,
-                                 BaseAddress, cpuarch);
-            if (retsize<0)
-                 retcode = 1;
-            else
-                 cpu_pos += retsize;
-        }
-
-        /* Found all Opcode and breakout and return no error found */
-        if (cpu_pos >=cpu_size)
-        {
-            break;
-        }
-
-        /* Check if we have found a cpu opcode */
-        if (cpu_oldpos == cpu_pos)
-        {
-            if (retcode == 0)
-            {
-                /* no unimplement error where found so we return a msg for unknown opcode */
-                printf("Unkonwn Opcode found at 0x%8x opcode 0x%2x\n",cpu_oldpos+BaseAddress,(unsigned int)cpu_buffer[cpu_oldpos]);
-                retcode = 2;
-            }
-        }
-
-        /* Erorro Found ? */
-        if (retcode!=0)
-        {
-            /* Erorro Found break and return the error code */
-            break;
-        }
-    }
-    return retcode;
-}