const char* hint;
}} hint_t;
+typedef struct {{
+ const char* word;
+ const int type;
+ const int value;
+}} vocabulary_t;
+
extern const location_t locations[];
extern const object_description_t object_descriptions[];
extern const const char* arbitrary_messages[];
extern const obituary_t obituaries[];
extern const hint_t hints[];
extern long conditions[];
+extern const vocabulary_t vocabulary[];
#define NLOCATIONS {}
#define NOBJECTS {}
{}
}};
+vocabulary_t vocabulary[] {{
+{}
+}};
+
/* end */
"""
cnd_str += " " + line + ",\t// " + name + "\n"
return cnd_str
-def recompose(word):
+def recompose(type_word, value):
"Compose the internal code for a vocabulary word from its YAML entry"
parts = ("motion", "action", "object", "special")
try:
- attrs = db["vocabulary"][word]
- return attrs["value"] + 1000 * parts.index(attrs["type"])
+ return value + 1000 * parts.index(type_word)
except KeyError:
sys.stderr.write("dungeon: %s is not a known word\n" % word)
sys.exit(1)
sys.stderr.write("%s is not a known word classifier" % attrs["type"])
sys.exit(1)
+def get_vocabulary(vocabulary):
+ template = """ {{
+ .word = {},
+ .type = {},
+ .value = {},
+ }},
+"""
+ voc_str = ""
+ for vocab in vocabulary:
+ word = make_c_string(vocab["word"])
+ type_code = recompose(vocab["type"], vocab["value"])
+ value = vocab["value"]
+ voc_str += template.format(word, type_code, value)
+ voc_str = voc_str[:-1] # trim trailing newline
+ return voc_str
+
if __name__ == "__main__":
with open(yaml_name, "r") as f:
db = yaml.load(f)
get_obituaries(db["obituaries"]),
get_hints(db["hints"], db["arbitrary_messages"]),
get_condbits(db["locations"]),
+ get_vocabulary(db["vocabulary"]),
)
h = h_template.format(
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