Ejemplo n.º 1
0
/* Declare all local variables used by the wrapper method */
void vtkWrapPython_DeclareVariables(
  FILE *fp, ClassInfo *data, FunctionInfo *theFunc)
{
  ValueInfo *arg;
  int i, n;

  n = vtkWrap_CountWrappedParameters(theFunc);

  /* temp variables for arg values */
  for (i = 0; i < n; i++)
    {
    arg = theFunc->Parameters[i];

    /* a callable python object for function args */
    if (vtkWrap_IsFunction(arg))
      {
      fprintf(fp,
              "  PyObject *temp%d = NULL;\n",
              i);
      /* ignore further arguments */
      break;
      }

    /* a PyObject argument will simply be passed through */
    if (vtkWrap_IsPythonObject(arg))
      {
      fprintf(fp,
              "  PyObject *temp%d;\n",
              i);
      continue;
      }

    /* temps for arrays */
    if (vtkWrap_IsArray(arg) || vtkWrap_IsNArray(arg) ||
        vtkWrap_IsPODPointer(arg))
      {
      /* for non-const arrays, alloc twice as much space */
      const char *mtwo = "";
      if (!vtkWrap_IsConst(arg) && !vtkWrap_IsSetVectorMethod(theFunc))
        {
        mtwo = "2*";
        }
      if (arg->CountHint || vtkWrap_IsPODPointer(arg))
        {
        /* prepare for "T *" arg, where T is a plain type */
        fprintf(fp,
              "  int size%d = ap.GetArgSize(%d);\n"
              "  vtkPythonArgs::Array<%s> store%d(%ssize%d);\n"
              "  %s *temp%d = store%d.Data();\n",
              i, i,
              vtkWrap_GetTypeName(arg), i, mtwo, i,
              vtkWrap_GetTypeName(arg), i, i);
        if (!vtkWrap_IsConst(arg))
          {
          fprintf(fp,
              "  %s *save%d = (size%d == 0 ? NULL : temp%d + size%d);\n",
              vtkWrap_GetTypeName(arg), i, i, i, i);
          }
        }
      else if (vtkWrap_IsArray(arg) && arg->Value)
        {
        /* prepare for "T a[n] = NULL" arg (array whose default is NULL) */
        fprintf(fp,
              "  int size%d = 0;\n"
              "  %s store%d[%s%d];\n"
              "  %s *temp%d = NULL;\n",
              i,
              vtkWrap_GetTypeName(arg), i, mtwo, arg->Count,
              vtkWrap_GetTypeName(arg), i);
        if (!vtkWrap_IsConst(arg))
          {
          fprintf(fp,
              "  %s *save%d = NULL;\n",
              vtkWrap_GetTypeName(arg), i);
          }
        fprintf(fp,
              "  if (ap.GetArgSize(%d) > 0)\n"
              "    {\n"
              "    size%d = %d;\n"
              "    temp%d = store%d;\n",
              i,
              i, arg->Count,
              i, i);
        if (!vtkWrap_IsConst(arg))
          {
          fprintf(fp,
              "    save%d = store%d + %d;\n",
              i, i, arg->Count);
          }
        fprintf(fp,
              "    }\n");
        }
      else
        {
        /* prepare for "T a[n]" or "T a[n][m]" array arg */
        vtkWrap_DeclareVariableSize(fp, arg, "size", i);
        vtkWrap_DeclareVariable(fp, data, arg, "temp", i, VTK_WRAP_ARG);

        if (!vtkWrap_IsConst(arg) &&
            !vtkWrap_IsSetVectorMethod(theFunc))
          {
          /* for saving a copy of the array */
          vtkWrap_DeclareVariable(fp, data, arg, "save", i, VTK_WRAP_ARG);
          }
        }
      }
    else
      {
      /* make a "temp" variable for any other kind of argument */
      vtkWrap_DeclareVariable(fp, data, arg, "temp", i, VTK_WRAP_ARG);
      }

    /* temps for buffer objects */
    if (vtkWrap_IsVoidPointer(arg))
      {
      fprintf(fp,
              "  Py_buffer pbuf%d = VTK_PYBUFFER_INITIALIZER;\n",
              i);
      }

    /* temps for conversion constructed objects, which only occur
     * for special objects */
    if (vtkWrap_IsSpecialObject(arg) &&
        !vtkWrap_IsNonConstRef(arg))
      {
      fprintf(fp,
              "  PyObject *pobj%d = NULL;\n",
              i);
      }
    }

  if (theFunc->ReturnValue)
    {
    /* the size for a one-dimensional array */
    if (vtkWrap_IsArray(theFunc->ReturnValue) &&
        !theFunc->ReturnValue->CountHint)
      {
      fprintf(fp,
              "  int sizer = %d;\n",
              theFunc->ReturnValue->Count);
      }
    }

  /* temp variable for the Python return value */
  fprintf(fp,
          "  PyObject *result = NULL;\n"
          "\n");
}
Ejemplo n.º 2
0
void vtkWrap_DeclareVariable(
  FILE *fp, ValueInfo *val, const char *name, int i, int flags)
{
  unsigned int aType;
  int j;

  if (val == NULL)
    {
    return;
    }

  aType = (val->Type & VTK_PARSE_UNQUALIFIED_TYPE);

  /* do nothing for void */
  if (aType == VTK_PARSE_VOID ||
      (aType & VTK_PARSE_BASE_TYPE) == VTK_PARSE_FUNCTION)
    {
    return;
    }

  /* add a couple spaces */
  fprintf(fp,"  ");

  /* for const * return types, prepend with const */
  if ((flags & VTK_WRAP_RETURN) != 0)
    {
    if ((val->Type & VTK_PARSE_CONST) != 0 &&
        (aType & VTK_PARSE_INDIRECT) != 0)
      {
      fprintf(fp,"const ");
      }
    }
  /* do the same for "const char *" with initializer */
  else
    {
    if ((val->Type & VTK_PARSE_CONST) != 0 &&
        aType == VTK_PARSE_CHAR_PTR &&
        val->Value &&
        strcmp(val->Value, "0") != 0 &&
        strcmp(val->Value, "NULL") != 0)
      {
      fprintf(fp,"const ");
      }
    }

  /* print the type name */
  fprintf(fp, "%s ", vtkWrap_GetTypeName(val));

  /* indirection */
  if ((flags & VTK_WRAP_RETURN) != 0)
    {
    /* ref and pointer return values are stored as pointers */
    if ((aType & VTK_PARSE_INDIRECT) == VTK_PARSE_POINTER ||
        (aType & VTK_PARSE_INDIRECT) == VTK_PARSE_REF)
      {
      fprintf(fp, "*");
      }
    }
  else
    {
    /* objects refs and pointers are always handled via pointers,
     * other refs are passed by value */
    if (aType == VTK_PARSE_CHAR_PTR ||
        aType == VTK_PARSE_VOID_PTR ||
        aType == VTK_PARSE_OBJECT_PTR ||
        aType == VTK_PARSE_OBJECT_REF ||
        aType == VTK_PARSE_OBJECT ||
        vtkWrap_IsQtObject(val))
      {
      fprintf(fp, "*");
      }
    /* arrays of unknown size are handled via pointers */
    else if (val->CountHint || vtkWrap_IsPODPointer(val))
      {
      fprintf(fp, "*");
      }
    }

  /* the variable name */
  if (i >= 0)
    {
    fprintf(fp,"%s%i", name, i);
    }
  else
    {
    fprintf(fp,"%s", name);
    }

  if ((flags & VTK_WRAP_ARG) != 0)
    {
    /* print the array decorators */
    if (((aType & VTK_PARSE_POINTER_MASK) != 0) &&
        aType != VTK_PARSE_CHAR_PTR &&
        aType != VTK_PARSE_VOID_PTR &&
        aType != VTK_PARSE_OBJECT_PTR &&
        !vtkWrap_IsQtObject(val) &&
        val->CountHint == NULL &&
        !vtkWrap_IsPODPointer(val))
      {
      if (val->NumberOfDimensions == 1 && val->Count > 0)
        {
        fprintf(fp, "[%d]", val->Count);
        }
      else
        {
        for (j = 0; j < val->NumberOfDimensions; j++)
          {
          fprintf(fp, "[%s]", val->Dimensions[j]);
          }
        }
      }

    /* add a default value */
    else if (val->Value)
      {
      fprintf(fp, " = %s", val->Value);
      }
    else if (aType == VTK_PARSE_CHAR_PTR ||
             aType == VTK_PARSE_VOID_PTR ||
             aType == VTK_PARSE_OBJECT_PTR ||
             aType == VTK_PARSE_OBJECT_REF ||
             aType == VTK_PARSE_OBJECT ||
             vtkWrap_IsQtObject(val))
      {
      fprintf(fp, " = NULL");
      }
    else if (val->CountHint || vtkWrap_IsPODPointer(val))
      {
      fprintf(fp, " = NULL");
      }
    else if (aType == VTK_PARSE_BOOL)
      {
      fprintf(fp, " = false");
      }
    }

  /* finish off with a semicolon */
  if ((flags & VTK_WRAP_NOSEMI) == 0)
    {
    fprintf(fp, ";\n");
    }
}
Ejemplo n.º 3
0
/* Declare all local variables used by the wrapper method */
void vtkWrapPython_DeclareVariables(
  FILE *fp, ClassInfo *data, FunctionInfo *theFunc)
{
  ValueInfo *arg;
  int i, n;
  int storageSize;

  n = vtkWrap_CountWrappedParameters(theFunc);

  /* temp variables for arg values */
  for (i = 0; i < n; i++)
    {
    arg = theFunc->Parameters[i];

    if (vtkWrap_IsPythonObject(arg) ||
        /* a callable python object for function args */
        vtkWrap_IsFunction(arg))
      {
      fprintf(fp,
              "  PyObject *temp%d = NULL;\n",
              i);
      break;
      }

    /* make a "temp" variable for the argument */
    vtkWrap_DeclareVariable(fp, data, arg, "temp", i, VTK_WRAP_ARG);

    /* temps for buffer objects */
    if (vtkWrap_IsVoidPointer(arg))
      {
      fprintf(fp,
              "  Py_buffer pbuf%d = VTK_PYBUFFER_INITIALIZER;\n",
              i);
      }

    /* temps for conversion constructed objects, which only occur
     * for special objects */
    if (vtkWrap_IsSpecialObject(arg) &&
        !vtkWrap_IsNonConstRef(arg))
      {
      fprintf(fp,
              "  PyObject *pobj%d = NULL;\n",
              i);
      }

    /* temps for arrays */
    if (vtkWrap_IsArray(arg) || vtkWrap_IsNArray(arg) ||
        vtkWrap_IsPODPointer(arg))
      {
      storageSize = 4;
      if (!vtkWrap_IsConst(arg) &&
          !vtkWrap_IsSetVectorMethod(theFunc))
        {
        /* for saving a copy of the array */
        vtkWrap_DeclareVariable(fp, data, arg, "save", i, VTK_WRAP_ARG);
        storageSize *= 2;
        }
      if (arg->CountHint || vtkWrap_IsPODPointer(arg))
        {
        fprintf(fp,
                "  %s small%d[%d];\n",
                vtkWrap_GetTypeName(arg), i, storageSize);
        }
      /* write an int array containing the dimensions */
      vtkWrap_DeclareVariableSize(fp, arg, "size", i);
      }
    }

  if (theFunc->ReturnValue)
    {
    /* the size for a one-dimensional array */
    if (vtkWrap_IsArray(theFunc->ReturnValue) &&
        !theFunc->ReturnValue->CountHint)
      {
      fprintf(fp,
              "  int sizer = %d;\n",
              theFunc->ReturnValue->Count);
      }
    }

  /* temp variable for the Python return value */
  fprintf(fp,
          "  PyObject *result = NULL;\n"
          "\n");
}
Ejemplo n.º 4
0
/* Get the size for vtkDataArray Tuple arguments */
static void vtkWrapPython_GetSizesForArrays(
  FILE *fp, FunctionInfo *theFunc, int is_vtkobject)
{
  int i, j, n;
  const char *indentation = "";
  const char *mtwo;
  ValueInfo *arg;

  n = vtkWrap_CountWrappedParameters(theFunc);

  j = ((is_vtkobject && !theFunc->IsStatic) ? 1 : 0);
  for (i = 0; i < n; i++)
    {
    arg = theFunc->Parameters[i];

    if (arg->CountHint || vtkWrap_IsPODPointer(arg))
      {
      if (j == 1)
        {
        fprintf(fp,
                "  if (op)\n"
                "    {\n");
        indentation = "  ";
        }
      j += 2;
      if (arg->CountHint)
        {
        fprintf(fp,
              "%s  size%d = op->%s;\n",
              indentation, i, arg->CountHint);
        }
      else
        {
        fprintf(fp,
              "%s  size%d = ap.GetArgSize(%d);\n",
              indentation, i, i);
        }

      /* for non-const arrays, alloc twice as much space */
      mtwo = "";
      if (!vtkWrap_IsConst(arg) && !vtkWrap_IsSetVectorMethod(theFunc))
        {
        mtwo = "2*";
        }

      fprintf(fp,
              "%s  temp%d = small%d;\n"
              "%s  if (size%d > 4)\n"
              "%s    {\n"
              "%s    temp%d = new %s[%ssize%d];\n"
              "%s    }\n",
              indentation, i, i,
              indentation, i,
              indentation,
              indentation, i, vtkWrap_GetTypeName(arg), mtwo, i,
              indentation);

      if (*mtwo)
        {
        fprintf(fp,
              "%s  save%d = &temp%d[size%d];\n",
              indentation, i, i, i);
        }
      }
    }
  if (j > 1)
    {
    if ((j & 1) != 0)
      {
      fprintf(fp,
                  "    }\n");
      }
    fprintf(fp,
            "\n");
    }
}
Ejemplo n.º 5
0
void vtkWrap_DeclareVariable(
  FILE *fp, ClassInfo *data, ValueInfo *val, const char *name,
  int i, int flags)
{
  unsigned int aType;
  int j;
  const char *typeName;
  char *newTypeName = NULL;

  if (val == NULL)
    {
    return;
    }

  aType = (val->Type & VTK_PARSE_UNQUALIFIED_TYPE);

  /* do nothing for void */
  if (aType == VTK_PARSE_VOID ||
      (aType & VTK_PARSE_BASE_TYPE) == VTK_PARSE_FUNCTION)
    {
    return;
    }

  typeName = vtkWrap_GetTypeName(val);

  if (vtkWrap_IsEnumMember(data, val))
    {
    /* use a typedef to work around compiler issues when someone used
       the same name for the enum type as for a variable or method */
    newTypeName = (char *)malloc(strlen(name) + 16);
    if (i >= 0)
      {
      sprintf(newTypeName, "%s%i_type", name, i);
      }
    else
      {
      sprintf(newTypeName, "%s_type", name);
      }
    fprintf(fp, "  typedef %s::%s %s;\n",
            data->Name, typeName, newTypeName);
    typeName = newTypeName;
    }

  /* add a couple spaces for indentation*/
  fprintf(fp,"  ");

  /* for const * return types, prepend with const */
  if ((flags & VTK_WRAP_RETURN) != 0)
    {
    if ((val->Type & VTK_PARSE_CONST) != 0 &&
        (aType & VTK_PARSE_INDIRECT) != 0)
      {
      fprintf(fp,"const ");
      }
    }
  /* do the same for "const char *" with initializer */
  else
    {
    if ((val->Type & VTK_PARSE_CONST) != 0 &&
        aType == VTK_PARSE_CHAR_PTR &&
        val->Value &&
        strcmp(val->Value, "0") != 0 &&
        strcmp(val->Value, "NULL") != 0)
      {
      fprintf(fp,"const ");
      }
    }

  /* print the type name */
  fprintf(fp, "%s ", typeName);

  /* indirection */
  if ((flags & VTK_WRAP_RETURN) != 0)
    {
    /* ref and pointer return values are stored as pointers */
    if ((aType & VTK_PARSE_INDIRECT) == VTK_PARSE_POINTER ||
        (aType & VTK_PARSE_INDIRECT) == VTK_PARSE_REF)
      {
      fprintf(fp, "*");
      }
    }
  else
    {
    /* objects refs and pointers are always handled via pointers,
     * other refs are passed by value */
    if (aType == VTK_PARSE_CHAR_PTR ||
        aType == VTK_PARSE_VOID_PTR ||
        aType == VTK_PARSE_OBJECT_PTR ||
        aType == VTK_PARSE_OBJECT_REF ||
        aType == VTK_PARSE_OBJECT ||
        vtkWrap_IsQtObject(val))
      {
      fprintf(fp, "*");
      }
    /* arrays of unknown size are handled via pointers */
    else if (val->CountHint || vtkWrap_IsPODPointer(val))
      {
      fprintf(fp, "*");
      }
    }

  /* the variable name */
  if (i >= 0)
    {
    fprintf(fp,"%s%i", name, i);
    }
  else
    {
    fprintf(fp,"%s", name);
    }

  if ((flags & VTK_WRAP_ARG) != 0)
    {
    /* print the array decorators */
    if (((aType & VTK_PARSE_POINTER_MASK) != 0) &&
        aType != VTK_PARSE_CHAR_PTR &&
        aType != VTK_PARSE_VOID_PTR &&
        aType != VTK_PARSE_OBJECT_PTR &&
        !vtkWrap_IsQtObject(val) &&
        val->CountHint == NULL &&
        !vtkWrap_IsPODPointer(val))
      {
      if (val->NumberOfDimensions == 1 && val->Count > 0)
        {
        fprintf(fp, "[%d]", val->Count);
        }
      else
        {
        for (j = 0; j < val->NumberOfDimensions; j++)
          {
          fprintf(fp, "[%s]", val->Dimensions[j]);
          }
        }
      }

    /* add a default value */
    else if (val->Value)
      {
      fprintf(fp, " = %s", val->Value);
      }
    else if (aType == VTK_PARSE_CHAR_PTR ||
             aType == VTK_PARSE_VOID_PTR ||
             aType == VTK_PARSE_OBJECT_PTR ||
             aType == VTK_PARSE_OBJECT_REF ||
             aType == VTK_PARSE_OBJECT ||
             vtkWrap_IsQtObject(val))
      {
      fprintf(fp, " = NULL");
      }
    else if (val->CountHint || vtkWrap_IsPODPointer(val))
      {
      fprintf(fp, " = NULL");
      }
    else if (aType == VTK_PARSE_BOOL)
      {
      fprintf(fp, " = false");
      }
    }

  /* finish off with a semicolon */
  if ((flags & VTK_WRAP_NOSEMI) == 0)
    {
    fprintf(fp, ";\n");
    }

  free(newTypeName);
}
Ejemplo n.º 6
0
void vtkWrapPython_AddPublicConstants(
  FILE *fp, const char *indent, const char *dictvar, const char *objvar,
  NamespaceInfo *data)
{
  const char *nextindent = "        ";
  ValueInfo *val;
  ValueInfo *firstval;
  const char *scope;
  int scopeType, scopeValue;
  unsigned int valtype;
  const char *typeName;
  const char *tname;
  int j = 0;
  int count, k, i;
  size_t l, m;

  /* get the next indent to use */
  l = strlen(indent);
  m = strlen(nextindent);
  if (m > l + 2)
    {
    nextindent += m - l - 2;
    }

  /* get the name of the namespace, or NULL if global */
  scope = data->Name;
  if (scope && scope[0] == '\0')
    {
    scope = 0;
    }

  /* go through the constants, collecting them by type */
  while (j < data->NumberOfConstants)
    {
    val = data->Constants[j];
    if (val->Access != VTK_ACCESS_PUBLIC)
      {
      j++;
      continue;
      }

    /* write a single constant if not numerical */
    if (j+1 == data->NumberOfConstants ||
        val->Type != data->Constants[j+1]->Type ||
        !vtkWrap_IsScalar(val) ||
        (!val->IsEnum && !vtkWrap_IsNumeric(val)))
      {
      vtkWrapPython_AddConstant(
        fp, indent, dictvar, objvar, scope, val);
      j++;
      continue;
      }

    /* get important information about the value */
    valtype = val->Type;
    typeName = (val->IsEnum ? val->Class : vtkWrap_GetTypeName(val));
    scopeType = (scope && val->IsEnum && strcmp(typeName, "int") != 0);
    scopeValue = (scope && val->IsEnum);

    /* count a series of constants of the same type */
    firstval = val;
    count = 0;
    for (k = j; k < data->NumberOfConstants; k++)
      {
      val = data->Constants[k];
      if (val->Access == VTK_ACCESS_PUBLIC)
        {
        tname = (val->IsEnum ? val->Class : vtkWrap_GetTypeName(val));
        if (val->Type != valtype || strcmp(tname, typeName) != 0)
          {
          break;
          }
        count++;
        }
      }

    /* if no constants to generate, then continue */
    if (count == 0)
      {
      j = k;
      continue;
      }

    /* check to make sure there won't be a name conflict between an
       enum type and some other class member, it happens specifically
       for vtkImplicitBoolean which has a variable and enum type both
       with the name OperationType */
    if (scopeType)
      {
      int conflict = 0;
      for (i = 0; i < data->NumberOfVariables && !conflict; i++)
        {
        conflict = (strcmp(data->Variables[i]->Name, typeName) == 0);
        }
      if (conflict)
        {
        valtype = VTK_PARSE_INT;
        typeName = "int";
        scopeType = 0;
        }
      }

    /* generate the code */
    fprintf(fp,
      "%sfor (int c = 0; c < %d; c++)\n"
      "%s  {\n",
      indent, count, indent);

    if (scopeType)
      {
      fprintf(fp,
        "%s  typedef %s::%s cxx_enum_type;\n\n",
        indent, scope, typeName);
      }

    fprintf(fp,
      "%s  static const struct { const char *name; %s value; }\n"
      "%s    constants[%d] = {\n",
      indent, (scopeType ? "cxx_enum_type" : typeName),
      indent, count);

    while (j < k)
      {
      val = data->Constants[j++];
      if (val->Access == VTK_ACCESS_PUBLIC)
        {
        fprintf(fp,
          "%s      { \"%s\", %s%s%s },\n",
          indent, val->Name,
          (scopeValue ? scope : ""), (scopeValue ? "::" : ""),
          (val->IsEnum ? val->Name : val->Value));
        }
      }

    fprintf(fp,
      "%s    };\n"
      "\n",
      indent);

    vtkWrapPython_AddConstantHelper(
      fp, nextindent, dictvar, objvar, scope,
      "constants[c].name", "constants[c].value", firstval);

    fprintf(fp,
      "%s  }\n\n",
      indent);
    }
}