digital-vcd-parser/bin/build.js

#!/usr/bin/env node
/* eslint-disable no-console */
/* eslint-disable indent */
'use strict';

const fs = require('fs');
const cp = require('child_process');
const llparse = require('llparse');

const gyp = cb => {
    console.log('build');
    const proc = cp.spawn('node-gyp', ['configure', 'build']);
    proc.stderr.on('data', data => {
        console.error(data.toString());
    });
    proc.on('close', (cb || (() => {
        console.log('done');
    })));
};

const objection = lut => arg => arg.split(/\s+/).reduce((res, key) => {
    if (lut[key] === undefined) {
        throw new Error(key);
    }
    res[key] = lut[key];
    return res;
}, {});

const properties = {
    command: 'i8',
    type: 'i8',
    size: 'i32',
    time: 'i64',        // current simulation time
    trigger: 'ptr',
    triee: 'ptr',       // trigger event emitter
    lifee: 'ptr',       // life cycle event emmiter
    info: 'ptr',
    value: 'ptr',       // value of the signal on change event
    mask: 'ptr',        // mask (x, z) of the signal on change event
    digitCount: 'i32',
    maskCount: 'i32',
    tmpStr: 'ptr',
    timeStampStr: 'ptr',
    idStr: 'ptr',
    tmpStr2: 'ptr',
    stackPointer: 'i32',
    id: 'ptr',
    napi_env: 'ptr'
};

const spaces = [' ', '\n', '\r', '\t'];
const lineSpaces = [' ', '\t'];

const generate = (cb) => {
    // const llparseDot = require('llparse-dot');

    const prj = 'vcd_parser';
    const p = new llparse.LLParse(prj);

    Object.keys(properties).map(key => p.property(properties[key], key));

    const {
        // scopeIdentifierSpan,
        varSizeSpan, varIdSpan, varNameSpan,
        idSpan,
        commandSpan,
        timeSpan
    } = `
    varSizeSpan varIdSpan varNameSpan
    idSpan
    commandSpan
    timeSpan
  `
        .trim().split(/\s+/)
        .reduce((res, n) => Object.assign(res, { [n]: p.span(p.code.span(n)) }), {});

    // scopeIdentifierSpan

    const {
        declaration,
        // scopeType, scopeTypeEnd,
        // scopeIdentifier, scopeIdentifierEnd,
        varType, varTypeEnd,
        varSize, varSizeEnd,
        varId, varIdEnd,
        varName, varNameEnd,
        inDeclaration,
        simulation,
        inSimulation,
        simulationTime,
        simulationVector, simulationVectorEnd, simulationVectorRecovery,
        simulationId
    } = `
    declaration
    varType varTypeEnd
    varSize varSizeEnd
    varId varIdEnd
    varName varNameEnd
    inDeclaration
    simulation
    inSimulation
    simulationTime
    simulationVector simulationVectorEnd simulationVectorRecovery
    simulationId
  `
        .trim().split(/\s+/)
        .reduce((res, n) => Object.assign(res, { [n]: p.node(n) }), {});

    // scopeType scopeTypeEnd
    // scopeIdentifier scopeIdentifierEnd

    const enddefinitions = p.node('inDeclarationEnd');

    const cmd = objection({
        $comment: 1,
        $date: 2,
        $scope: 3,
        $timescale: 4,
        $upscope: 5,
        $var: 6,
        $version: 7,
        $enddefinitions: 8,
        $dumpall: 9,
        $dumpoff: 10,
        $dumpon: 11,
        $dumpvars: 12,
        '#': 13,
        '0': 14, '1': 15,
        x: 16, X: 17,
        z: 18, Z: 19,
        u: 20, U: 21, // VHDL states
        w: 22, W: 23,
        l: 24, L: 25,
        h: 26, H: 27,
        '-': 28,
        b: 30, B: 31, r: 32, R: 33
    });

    declaration
        .match(spaces, declaration)
        .select(cmd('$scope $var $upscope $comment $date $timescale $version'),
            p.invoke(p.code.store('command'), commandSpan.start(inDeclaration)))
        .select(cmd('$enddefinitions'),
            p.invoke(p.code.store('command'), commandSpan.start(enddefinitions)))
        .otherwise(p.error(1, 'Expected declaration command'));


    varType.match(spaces, varType).otherwise(varTypeEnd);
    varTypeEnd
        .select({
            event: 1,
            integer: 2,
            parameter: 3,
            real: 4,
            realtime: 5,
            reg: 6,
            supply0: 7,
            supply1: 8,
            time: 9,
            tri: 10,
            triand: 11,
            trior: 12,
            trireg: 13,
            tri0: 14,
            tri1: 15,
            wand: 16,
            wire: 17,
            wor: 18
        }, p.invoke(p.code.store('type'), varSize))
        .otherwise(p.error(3, 'Expected var type'));

    // $var reg 3 ( r_reg [2:0] $end
    //          ^

    varSize.match(spaces, varSize).otherwise(varSizeSpan.start(varSizeEnd));
    varSizeEnd.match(spaces, varSizeSpan.end(varId)).skipTo(varSizeEnd);

    // $var reg 3 ( r_reg [2:0] $end
    //            ^

    varId.match(spaces, varId).otherwise(varIdSpan.start(varIdEnd));
    varIdEnd.match(spaces, varIdSpan.end(varName)).skipTo(varIdEnd);

    // $var reg 3 ( r_reg [2:0] $end
    //              ^^^^^

    varName.match(spaces, varName).otherwise(varNameSpan.start(varNameEnd));
    varNameEnd.match('$end', commandSpan.end(varNameSpan.end(declaration))).skipTo(varNameEnd);

    // $end

    inDeclaration
        .match('$end', commandSpan.end(declaration))
        .skipTo(inDeclaration);

    enddefinitions
        .match('$end', commandSpan.end(simulation))
        .skipTo(enddefinitions);

    simulation
        .match([' ', '\r', '\n', '\t', '$dumpvars', '$dumpall', '$end'], simulation)
        .select(cmd('$dumpoff $dumpon $comment'),
            p.invoke(p.code.store('command'), commandSpan.start(inSimulation)))
        .select(cmd('#'),
            p.invoke(p.code.store('command'), timeSpan.start(simulationTime)))
        .select(cmd('0 1 x X z Z u U w W l L h H -'),
            p.invoke(p.code.store('command'), idSpan.start(simulationId)))
        .select(cmd('b B r R'),
            p.invoke(p.code.store('command'), simulationVector))
        .otherwise(p.error(4, 'Expected simulation command'));

    inSimulation
        .match('$end', commandSpan.end(simulation))
        .skipTo(inSimulation);

    simulationTime
        .match(spaces, timeSpan.end(p.invoke(p.code.span('onTime'), simulation)))
        .skipTo(simulationTime);

    simulationVector
        .select(
            {
                0: 0,
                1: 1,
                x: 2, X: 2,
                z: 3, Z: 3,
                u: 3, U: 3, // VHDL states
                w: 3, W: 3,
                l: 3, L: 3,
                h: 3, H: 3,
                '-': 3
            },
            p.invoke(
                // p.code.mulAdd('value', {base: 2, signed: false}),
                p.code.value('onDigit'),
                { 1: p.error(5, 'Content-Length overflow') },
                simulationVector
            )
        )
        .otherwise(simulationVectorEnd);

    simulationVectorEnd
        .match(lineSpaces, idSpan.start(simulationId))
        .skipTo(simulationVectorRecovery);

    simulationVectorRecovery
        .select(
            {
                '\n': 1, '\r': 1
            },
            p.invoke(
                p.code.value('onRecover'),
                { 1: p.error(6, 'recover') },
                simulation
            )
        )
        .skipTo(simulationVectorRecovery);

    simulationId
        .match(spaces, idSpan.end(p.invoke(p.code.span('onId'), simulation)))
        .skipTo(simulationId);

    const artifacts = p.build(declaration);

    fs.writeFileSync(prj + '.h', artifacts.header);
    // fs.writeFileSync('verilog_preprocessor.bc', artifacts.bitcode);
    fs.writeFileSync(prj + '.c', artifacts.c);

    // const dot = new llparseDot.Dot();
    // fs.writeFileSync(prj + '.dot', dot.build(declaration));

    if (cb) {
        cb();
    }
};

generate(gyp);
// generate();

/* eslint camelcase: 0 */