blob: aa778c8a645718b56c2f9cf544721b99a1cc572b [file] [log] [blame]
/*
*
* Copyright (c) 2021 Project CHIP Authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// Import helpers from zap core
const zapPath = '../../../third_party/zap/repo/dist/src-electron/';
const templateUtil = require(zapPath + 'generator/template-util.js');
const zclHelper = require(zapPath + 'generator/helper-zcl.js');
const zclQuery = require(zapPath + 'db/query-zcl.js');
const ChipTypesHelper = require('../../../src/app/zap-templates/common/ChipTypesHelper.js');
function asDelimitedCommand(name)
{
return name.replace(/([a-z])([A-Z])/g, '$1-$2').toLowerCase();
}
function asTypeMinValue(type)
{
function fn(pkgId)
{
const options = { 'hash' : {} };
this.isArray = false;
return zclHelper.asUnderlyingZclType.call(this, type, options).then(zclType => {
const basicType = ChipTypesHelper.asBasicType(zclType);
switch (basicType) {
case 'bool':
return '0';
case 'int8_t':
case 'int16_t':
case 'int32_t':
case 'int64_t':
return 'INT' + parseInt(basicType.slice(3)) + '_MIN';
case 'uint8_t':
case 'uint16_t':
case 'uint32_t':
case 'uint64_t':
return '0';
case 'float':
case 'double':
return `-std::numeric_limits<${basicType}>::infinity()`;
default:
error = 'asTypeMinValue: Unhandled underlying type ' + zclType + ' for original type ' + type;
throw error;
}
})
}
const promise = templateUtil.ensureZclPackageId(this).then(fn.bind(this)).catch(err => {
console.log(err);
throw err;
});
return templateUtil.templatePromise(this.global, promise);
}
function asTypeMaxValue(type)
{
function fn(pkgId)
{
const options = { 'hash' : {} };
return zclHelper.asUnderlyingZclType.call(this, type, options).then(zclType => {
const basicType = ChipTypesHelper.asBasicType(zclType);
switch (basicType) {
case 'bool':
return '1';
case 'int8_t':
case 'int16_t':
case 'int32_t':
case 'int64_t':
return 'INT' + parseInt(basicType.slice(3)) + '_MAX';
case 'uint8_t':
case 'uint16_t':
case 'uint32_t':
case 'uint64_t':
return 'UINT' + parseInt(basicType.slice(4)) + '_MAX';
case 'float':
case 'double':
return `std::numeric_limits<${basicType}>::infinity()`;
default:
return 'err';
error = 'asTypeMaxValue: Unhandled underlying type ' + zclType + ' for original type ' + type;
throw error;
}
})
}
const promise = templateUtil.ensureZclPackageId(this).then(fn.bind(this)).catch(err => {
console.log(err);
throw err;
});
return templateUtil.templatePromise(this.global, promise);
}
async function structs_with_cluster_name(options)
{
const packageId = await templateUtil.ensureZclPackageId(this);
const structs = await zclQuery.selectAllStructsWithItems(this.global.db, packageId);
let blocks = [];
for (const s of structs) {
if (s.struct_cluster_count == 0) {
continue;
}
if (s.struct_cluster_count == 1) {
const clusters = await zclQuery.selectStructClusters(this.global.db, s.id);
blocks.push({ id : s.id, name : s.name, clusterName : clusters[0].name });
}
if (s.struct_cluster_count > 1) {
blocks.push({ id : s.id, name : s.name, clusterName : "detail" });
}
}
return templateUtil.collectBlocks(blocks, options, this);
}
//
// Module exports
//
exports.asDelimitedCommand = asDelimitedCommand;
exports.asTypeMinValue = asTypeMinValue;
exports.asTypeMaxValue = asTypeMaxValue;
exports.structs_with_cluster_name = structs_with_cluster_name;