GetParameterInfo

Resumen

Returns a list of parameter objects for a given tool. Commonly used in a script tool's ToolValidator class.

Sintaxis

GetParameterInfo (tool_name)
ParámetroExplicaciónTipo de datos
tool_name

The tool name. Including the toolbox alias will help to resolve any conflicts with duplicated tool names.

NotaNota:

When the GetParameterInfo function is used as part of a script tool's ToolValidator class, the tool_name argument is optional.

String
Valor de retorno
Tipo de datosExplicación
Parameter

Returns a list of parameter objects.

Ejemplo de código

GetParameterInfo example 1

Display some parameter object properties for the specified tool.

import arcpy

# Load tool parameter objects into list.
params = arcpy.GetParameterInfo("HotSpots")

for param in params:
    print "Name: %s, Type: %s, Value: %s" % (param.name, param.parameterType, param.value)
GetParameterInfo example 2

Setting symbology for a script tool's output dataset.

import arcpy
from arcpy import env
import os

# Set workspace and variables for Clip tool.
env.workspace = arcpy.GetParameterAsText(0)
in_features = arcpy.GetParameterAsText(1)
clip_features = arcpy.GetParameterAsText(2)
out_feature_class = arcpy.GetParameterAsText(3)

# Execute clip tool
output = arcpy.Clip_analysis(in_features, clip_features, 
                             output_feature_class)

# Load up list with parameter objects
params = arcpy.GetParameterInfo()

# Use describe on result object and get shape type.
desc = arcpy.Describe(output)

# Set symbology property for out_feature_class parameter
# Layer files are located in workspace directory.
lyr_location = os.path.dirname(env.workspace)

if desc.ShapeType.lower() == "polygon":
    params[2].symbology = lyr_location + os.sep + "Polygon.lyr"
elif desc.ShapeType.lower() = "polyline":
    params[2].symbology = lyr_location + os.sep + "Polyline.lyr"
else:
    params[2].symbology = lyr_location + os.sep + "Point.lyr"

Este ejemplo simula la validación de la herramienta Agregar campo

 class ToolValidator:      def __init__(self):         import arcpy          self.params = arcpy.GetParameterInfo()      def initializeParameters(self):         # The derived output is a clone (copy) of the input         #         self.params[10].parameterDependencies = [0]         self.params[10].schema.clone = True          # Set up the field type list         #         self.params[2].filter.list = ["TEXT", "FLOAT", "DOUBLE",                                       "SHORT", "LONG", "DATE",                                       "BLOB", "RASTER"]          # The default field type is LONG         #         self.params[2].value = "LONG"          # Field scale & Length are disabled for LONG types         #         self.params[4].enabled = False         self.params[5].enabled = False          # Set the Boolean filters for IsNullable and IsRequired and         #  their default values         #         self.params[7].filter.list = ["NULLABLE", "NON_NULLABLE"]         self.params[7].value = "NULLABLE"                  self.params[8].filter.list = ["REQUIRED", "NON_REQUIRED"]         self.params[8].value = "NON_REQUIRED"          return      def updateParameters(self):         # Set the default field type value unless the user altered it         #         if not self.params[2].altered:             self.params[2].value = "LONG"          # Enable/Disable parameters based on field type         #         fieldType = self.params[2].value.upper()         if fieldType in ["TEXT", "BLOB"]:             self.params[3].enabled = False             self.params[4].enabled = False             self.params[5].enabled = True         elif fieldType in ["FLOAT", "DOUBLE"]:             self.params[3].enabled = True             self.params[4].enabled = True             self.params[5].enabled = False         elif fieldType in ["SHORT", "LONG"]:             self.params[3].enabled = True             self.params[4].enabled = False             self.params[5].enabled = False         elif fieldType in ["DATE", "RASTER"]:             self.params[3].enabled = False             self.params[4].enabled = False             self.params[5].enabled = False         else:             # Unknown field type.  Internal validation will catch this             #  and show an error. We might as well return here and let             #  internal validation do its work.             #             return                  # Update the output schema with the new field. Don't do anything         #  unless we have an input value and a field name         #         if self.params[0].value and self.params[1].value:             newField = arcpy.Field()             newField.name = self.params[1].value             newField.type = self.params[2].value              # Set up the field properties based on type of field             #             if self.params[3].value and self.params[3].enabled:                 newField.precision = self.params[3].value             if self.params[4].value and self.params[4].enabled:                 newField.scale = self.params[4].value             if self.params[5].value and self.params[5].enabled:                 newField.length = self.params[5].value                              if self.params[6].value:                 newField.aliasName = self.params[6].value                              newField.isNullable = self.params[7].value              # Note: IsRequired is not a property on a field object -- it's             #  handled internally by the Add Field system tool.             #              if self.params[9].value:                 newField.domain = self.params[9].value              # Set the additional field on the output schema             #             self.params[10].schema.additionalFields = [newField]      def updateMessages(self):         return    

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7/10/2012