blob: fefb9b79396c8dbdacbf4743edffab2b3cb31925 [file] [log] [blame] [raw]
#!/usr/bin/env python3
import argparse
import io
import os.path
import pdfminer.high_level
import pdfminer.layout
import re
import sys
import urllib.request
FILE = ("https://ww1.microchip.com/downloads/en/DeviceDoc/"
"AVR-InstructionSet-Manual-DS40002198.pdf")
section_regex = re.compile(r"^(6\.\d{1,3}?)\s+?(?P<mnemonic>\w+?)\s+?(?:\((?P<mnemonic_2>\w+?)\)\s+?)?[-\u2013]\s+?(?P<name>.+?)\s*?$\s+?\1\.1\s+?Description\s+(?P<description>(?s:.+?))\s+?Operation:", re.MULTILINE)
header_footer_regex = re.compile(r"\s+?\w+?-page \d{1,3}?\s+?Manual\s+?\u00a9 2021 Microchip Technology Inc.\s+?AVR\u00ae Instruction Set Manual\s+?Instruction Description\s*", re.MULTILINE)
page_num_regex = re.compile(r"\b\w+?-page (\d{1,3})")
class Instruction:
def __init__(self, mnemonic):
self.mnemonic = mnemonic
self.name = mnemonic
self.description = ""
self.page = 2
self.mnemonic_2 = ""
def main():
args = get_arguments()
docs = get_docs_as_string(FILE)
instructions = parse_docs(docs)
write_script(args.output, instructions)
def get_arguments():
parser = argparse.ArgumentParser()
help_text = "the location to which the script will be written"
relative_path = "/../../lib/handlers/asm-docs-avr.js"
script_path = os.path.realpath(__file__)
script_dir = os.path.dirname(script_path)
default_path = os.path.normpath(script_dir + relative_path)
parser.add_argument("-o", "--output", help=help_text, default=default_path)
return parser.parse_args()
def get_docs_as_string(url):
with urllib.request.urlopen(url) as u:
log_message(f"reading PDF from {url}...")
pdf_bytes = u.read()
with io.BytesIO(pdf_bytes) as pdf_io:
pdf_params = pdfminer.layout.LAParams(boxes_flow=None)
log_message("extracting text from PDF...")
return pdfminer.high_level.extract_text(pdf_io, laparams=pdf_params)
def parse_docs(docs):
instructions = {}
log_message("searching for pattern matches...")
for match in section_regex.finditer(docs):
if match.group("mnemonic") not in instructions:
instr = Instruction(match.group("mnemonic"))
instr.name = match.group("name")
instr.description = process_description(match.group("description"))
instr.page = page_num_regex.search(docs, match.start()).group(1)
#print(40 * "-")
#print(f"Mnemonic: {instr.mnemonic}\nName: {instr.name}")
#print(f"Description: {instr.description}")
#print(instr.description)
instructions[instr.mnemonic] = instr
else:
instr = instructions[match.group("mnemonic")]
if match.group("mnemonic_2"):
instr.mnemonic_2 = match.group("mnemonic_2")
return instructions
def process_description(desc):
# First, remove page header/footer
desc = header_footer_regex.sub("", desc)
# Next, combine lines that are separated by a singular newline
desc = re.sub(r"(?<!\n)\n(?!\n)", " ", desc, flags=re.MULTILINE)
# Remove leftovers from diagrams
p = r"^(?:(?:\b\w+?\b\s*?){1,2}|.)$\n{2}"
desc = re.sub(p, "", desc, flags=re.MULTILINE)
return desc
def write_script(filename, instructions):
log_message(f"writing to {filename}...")
with open(filename, "w") as script:
script.write("export function getAsmOpcode(opcode) {\n")
script.write(" if (!opcode) return;\n")
script.write(" switch (opcode.toUpperCase()) {\n")
for inst in instructions.values():
script.write(f" case \"{inst.mnemonic}\":\n")
if inst.mnemonic_2:
script.write(f" case \"{inst.mnemonic_2}\":\n")
script.write(" return {\n")
html = f"{16 * ' '}\"html\": \"<p>"
html += inst.description.replace("\n\n", "</p><p>")
html += "</p>\",\n"
script.write(html)
script.write(f"{16 * ' '}\"tooltip\": \"{inst.name}\",\n")
script.write(f"{16 * ' '}\"url\": \"{FILE}#page={inst.page}\",\n")
script.write(12 * " " + "};\n\n")
script.write(" }\n}")
def log_message(msg):
print(f"{sys.argv[0]}: {msg}", file=sys.stderr)
if __name__ == "__main__":
main()