Process the variants into a dictionary and then mark them as used as they are applied.

Loop over all variants at the end and display an error if the variant was unused.
internals
giawa 5 years ago
parent 8be7644c3e
commit d62cb5f278
  1. 61
      src/CodeGenerator/Program.cs

@ -140,6 +140,17 @@ namespace CodeGenerator
}
}
Dictionary<string, MethodVariant> variants = new Dictionary<string, MethodVariant>();
foreach (var jt in variantsJson.Children())
{
JProperty jp = (JProperty)jt;
ParameterVariant[] methodVariants = jp.Values().Select(jv =>
{
return new ParameterVariant(jv["name"].ToString(), jv["type"].ToString(), jv["variants"].Select(s => s.ToString()).ToArray());
}).ToArray();
variants.Add(jp.Name, new MethodVariant(jp.Name, methodVariants));
}
EnumDefinition[] enums = typesJson["enums"].Select(jt =>
{
JProperty jp = (JProperty)jt;
@ -206,7 +217,8 @@ namespace CodeGenerator
List<TypeReference> parameters = new List<TypeReference>();
// find any variants that can be applied to the parameters of this method based on the method name
JToken variants = variantsJson?.Children().Where(variant => ((JProperty)variant).Name == cimguiname).FirstOrDefault() ?? null;
MethodVariant methodVariants = null;
variants.TryGetValue(jp.Name, out methodVariants);
foreach (JToken p in val["argsT"])
{
@ -214,11 +226,10 @@ namespace CodeGenerator
string pName = p["name"].ToString();
// if there are possible variants for this method then try to match them based on the parameter name and expected type
var matchingVariant = variants?.Values().Where(v => v["name"].ToString() == pName && v["type"].ToString() == pType).FirstOrDefault() ?? null;
// if there was a match to this name and type then apply those variants to this parameter
string[] pVariants = matchingVariant?["variants"].Values().Select(variant => variant.ToString()).ToArray() ?? null;
ParameterVariant matchingVariant = methodVariants?.Parameters.Where(pv => pv.Name == pName && pv.OriginalType == pType).FirstOrDefault() ?? null;
if (matchingVariant != null) matchingVariant.Used = true;
parameters.Add(new TypeReference(pName, pType, enums, pVariants));
parameters.Add(new TypeReference(pName, pType, enums, matchingVariant?.VariantTypes));
}
Dictionary<string, string> defaultValues = new Dictionary<string, string>();
@ -564,6 +575,14 @@ namespace CodeGenerator
writer.PopBlock();
writer.PopBlock();
}
foreach (var method in variants)
{
foreach (var variant in method.Value.Parameters)
{
if (!variant.Used) Console.WriteLine($"Error: Variants targetting parameter {variant.Name} with type {variant.OriginalType} could not be applied to method {method.Key}.");
}
}
}
private static bool IsStringFieldName(string name)
@ -982,6 +1001,38 @@ namespace CodeGenerator
}
}
class MethodVariant
{
public string Name { get; }
public ParameterVariant[] Parameters { get; }
public MethodVariant(string name, ParameterVariant[] parameters)
{
Name = name;
Parameters = parameters;
}
}
class ParameterVariant
{
public string Name { get; }
public string OriginalType { get; }
public string[] VariantTypes { get; }
public bool Used { get; set; }
public ParameterVariant(string name, string originalType, string[] variantTypes)
{
Name = name;
OriginalType = originalType;
VariantTypes = variantTypes;
Used = false;
}
}
class EnumDefinition
{
private readonly Dictionary<string, string> _sanitizedNames;

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