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Upgrade to py 3.11.14; ROS2 Humble 0.7; unilabos 0.10.16
Workbench example, adjust log level, and ci check (#220) * TestLatency Return Value Example & gitignore update * Adjust log level & Add workbench virtual example & Add not action decorator & Add check_mode & * Add CI Check Fix/workstation yb revision (#217) * Revert log change & update registry * Revert opcua client & move electrolyte node Workstation yb merge dev ready 260113 (#216) * feat(bioyond): 添加计算实验设计功能,支持化合物配比和滴定比例参数 * feat(bioyond): 添加测量小瓶功能,支持基本参数配置 * feat(bioyond): 添加测量小瓶配置,支持新设备参数 * feat(bioyond): 更新仓库布局和尺寸,支持竖向排列的测量小瓶和试剂存放堆栈 * feat(bioyond): 优化任务创建流程,确保无论成功与否都清理任务队列以避免重复累积 * feat(bioyond): 添加设置反应器温度功能,支持温度范围和异常处理 * feat(bioyond): 调整反应器位置配置,统一坐标格式 * feat(bioyond): 添加调度器启动功能,支持任务队列执行并处理异常 * feat(bioyond): 优化调度器启动功能,添加异常处理并更新相关配置 * feat(opcua): 增强节点ID解析兼容性和数据类型处理 改进节点ID解析逻辑以支持多种格式,包括字符串和数字标识符 添加数据类型转换处理,确保写入值时类型匹配 优化错误提示信息,便于调试节点连接问题 * feat(registry): 新增后处理站的设备配置文件 添加后处理站的YAML配置文件,包含动作映射、状态类型和设备描述 * 添加调度器启动功能,合并物料参数配置,优化物料参数处理逻辑 * 添加从 Bioyond 系统自动同步工作流序列的功能,并更新相关配置 * fix:兼容 BioyondReactionStation 中 workflow_sequence 被重写为 property * fix:同步工作流序列 * feat: remove commented workflow synchronization from `reaction_station.py`. * 添加时间约束功能及相关配置 * fix:自动更新物料缓存功能,添加物料时更新缓存并在删除时移除缓存项 * fix:在添加物料时处理字符串和字典返回值,确保正确更新缓存 * fix:更新奔曜错误处理报送为物料变更报送,调整日志记录和响应消息 * feat:添加实验报告简化功能,去除冗余信息并保留关键信息 * feat: 添加任务状态事件发布功能,监控并报告任务运行、超时、完成和错误状态 * fix: 修复添加物料时数据格式错误 * Refactor bioyond_dispensing_station and reaction_station_bioyond YAML configurations - Removed redundant action value mappings from bioyond_dispensing_station. - Updated goal properties in bioyond_dispensing_station to use enums for target_stack and other parameters. - Changed data types for end_point and start_point in reaction_station_bioyond to use string enums (Start, End). - Simplified descriptions and updated measurement units from μL to mL where applicable. - Removed unused commands from reaction_station_bioyond to streamline the configuration. * fix:Change the material unit from μL to mL * fix:refresh_material_cache * feat: 动态获取工作流步骤ID,优化工作流配置 * feat: 添加清空服务端所有非核心工作流功能 * fix:修复Bottle类的序列化和反序列化方法 * feat:增强材料缓存更新逻辑,支持处理返回数据中的详细信息 * Add debug log * feat(workstation): update bioyond config migration and coin cell material search logic - Migrate bioyond_cell config to JSON structure and remove global variable dependencies - Implement material search confirmation dialog auto-handling - Add documentation: 20260113_物料搜寻确认弹窗自动处理功能.md and 20260113_配置迁移修改总结.md * Refactor module paths for Bioyond devices in YAML configuration files - Updated the module path for BioyondDispensingStation in bioyond_dispensing_station.yaml to reflect the new directory structure. - Updated the module path for BioyondReactionStation and BioyondReactor in reaction_station_bioyond.yaml to align with the revised organization of the codebase. * fix: WareHouse 的不可哈希类型错误,优化父节点去重逻辑 * refactor: Move config from module to instance initialization * fix: 修正 reaction_station 目录名拼写错误 * feat: Integrate material search logic and cleanup deprecated files - Update coin_cell_assembly.py with material search dialog handling - Update YB_warehouses.py with latest warehouse configurations - Remove outdated documentation and test data files * Refactor: Use instance attributes for action names and workflow step IDs * refactor: Split tipbox storage into left and right warehouses * refactor: Merge tipbox storage left and right into single warehouse --------- Co-authored-by: ZiWei <131428629+ZiWei09@users.noreply.github.com> Co-authored-by: Andy6M <xieqiming1132@qq.com> fix: WareHouse 的不可哈希类型错误,优化父节点去重逻辑 fix parent_uuid fetch when bind_parent_id == node_name 物料更新也是用父节点进行报送 Add None conversion for tube rack etc. Add set_liquid example. Add create_resource and test_resource example. Add restart. Temp allow action message. Add no_update_feedback option. Create session_id by edge. bump version to 0.10.15 temp cancel update req
This commit is contained in:
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653
unilabos/resources/bioyond/YB_bottle_carriers.py
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653
unilabos/resources/bioyond/YB_bottle_carriers.py
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from pylabrobot.resources import create_homogeneous_resources, Coordinate, ResourceHolder, create_ordered_items_2d
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from unilabos.resources.itemized_carrier import Bottle, BottleCarrier
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from unilabos.resources.bioyond.YB_bottles import (
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YB_jia_yang_tou_da,
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YB_ye_Bottle,
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YB_ye_100ml_Bottle,
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YB_gao_nian_ye_Bottle,
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YB_5ml_fenyeping,
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YB_20ml_fenyeping,
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YB_pei_ye_xiao_Bottle,
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YB_pei_ye_da_Bottle,
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YB_qiang_tou,
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)
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# 命名约定:试剂瓶-Bottle,烧杯-Beaker,烧瓶-Flask,小瓶-Vial
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def BIOYOND_Electrolyte_6VialCarrier(name: str) -> BottleCarrier:
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"""6瓶载架 - 2x3布局"""
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 50.0
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# 瓶位尺寸
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bottle_diameter = 30.0
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bottle_spacing_x = 42.0 # X方向间距
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bottle_spacing_y = 35.0 # Y方向间距
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# 计算起始位置 (居中排列)
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start_x = (carrier_size_x - (3 - 1) * bottle_spacing_x - bottle_diameter) / 2
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start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
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sites = create_ordered_items_2d(
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klass=ResourceHolder,
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num_items_x=3,
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num_items_y=2,
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dx=start_x,
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dy=start_y,
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dz=5.0,
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item_dx=bottle_spacing_x,
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item_dy=bottle_spacing_y,
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size_x=bottle_diameter,
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size_y=bottle_diameter,
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size_z=carrier_size_z,
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)
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for k, v in sites.items():
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v.name = f"{name}_{v.name}"
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=sites,
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model="Electrolyte_6VialCarrier",
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)
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carrier.num_items_x = 3
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carrier.num_items_y = 2
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carrier.num_items_z = 1
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# for i in range(6):
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# carrier[i] = YB_Solid_Vial(f"{name}_vial_{i+1}")
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return carrier
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def BIOYOND_Electrolyte_1BottleCarrier(name: str) -> BottleCarrier:
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"""1瓶载架 - 单个中央位置"""
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 100.0
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# 烧杯尺寸
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beaker_diameter = 80.0
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# 计算中央位置
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center_x = (carrier_size_x - beaker_diameter) / 2
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center_y = (carrier_size_y - beaker_diameter) / 2
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center_z = 5.0
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=create_homogeneous_resources(
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klass=ResourceHolder,
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locations=[Coordinate(center_x, center_y, center_z)],
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resource_size_x=beaker_diameter,
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resource_size_y=beaker_diameter,
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name_prefix=name,
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),
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model="Electrolyte_1BottleCarrier",
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)
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carrier.num_items_x = 1
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carrier.num_items_y = 1
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carrier.num_items_z = 1
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# carrier[0] = YB_Solution_Beaker(f"{name}_beaker_1")
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return carrier
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def YB_6StockCarrier(name: str) -> BottleCarrier:
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"""6瓶载架 - 2x3布局"""
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 50.0
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# 瓶位尺寸
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bottle_diameter = 20.0
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bottle_spacing_x = 42.0 # X方向间距
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bottle_spacing_y = 35.0 # Y方向间距
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# 计算起始位置 (居中排列)
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start_x = (carrier_size_x - (3 - 1) * bottle_spacing_x - bottle_diameter) / 2
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start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
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sites = create_ordered_items_2d(
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klass=ResourceHolder,
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num_items_x=3,
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num_items_y=2,
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dx=start_x,
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dy=start_y,
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dz=5.0,
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item_dx=bottle_spacing_x,
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item_dy=bottle_spacing_y,
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size_x=bottle_diameter,
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size_y=bottle_diameter,
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size_z=carrier_size_z,
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)
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for k, v in sites.items():
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v.name = f"{name}_{v.name}"
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=sites,
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model="6StockCarrier",
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)
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carrier.num_items_x = 3
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carrier.num_items_y = 2
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carrier.num_items_z = 1
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ordering = ["A1", "A2", "A3", "B1", "B2", "B3"] # 自定义顺序
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# for i in range(6):
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# carrier[i] = YB_Solid_Stock(f"{name}_vial_{ordering[i]}")
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return carrier
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def YB_6VialCarrier(name: str) -> BottleCarrier:
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"""6瓶载架 - 2x3布局"""
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 50.0
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# 瓶位尺寸
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bottle_diameter = 30.0
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bottle_spacing_x = 42.0 # X方向间距
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bottle_spacing_y = 35.0 # Y方向间距
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# 计算起始位置 (居中排列)
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start_x = (carrier_size_x - (3 - 1) * bottle_spacing_x - bottle_diameter) / 2
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start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
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sites = create_ordered_items_2d(
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klass=ResourceHolder,
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num_items_x=3,
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num_items_y=2,
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dx=start_x,
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dy=start_y,
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dz=5.0,
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item_dx=bottle_spacing_x,
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item_dy=bottle_spacing_y,
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size_x=bottle_diameter,
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size_y=bottle_diameter,
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size_z=carrier_size_z,
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)
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for k, v in sites.items():
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v.name = f"{name}_{v.name}"
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=sites,
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model="6VialCarrier",
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)
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carrier.num_items_x = 3
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carrier.num_items_y = 2
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carrier.num_items_z = 1
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ordering = ["A1", "A2", "A3", "B1", "B2", "B3"] # 自定义顺序
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# for i in range(3):
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# carrier[i] = YB_Solid_Vial(f"{name}_solidvial_{ordering[i]}")
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# for i in range(3, 6):
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# carrier[i] = YB_Liquid_Vial(f"{name}_liquidvial_{ordering[i]}")
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return carrier
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# 1瓶载架 - 单个中央位置
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def YB_ye(name: str) -> BottleCarrier:
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 20.0
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# 烧杯尺寸
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beaker_diameter = 60.0
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# 计算中央位置
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center_x = (carrier_size_x - beaker_diameter) / 2
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center_y = (carrier_size_y - beaker_diameter) / 2
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center_z = 5.0
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=create_homogeneous_resources(
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klass=ResourceHolder,
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locations=[Coordinate(center_x, center_y, center_z)],
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resource_size_x=beaker_diameter,
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resource_size_y=beaker_diameter,
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name_prefix=name,
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),
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model="YB_ye",
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)
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carrier.num_items_x = 1
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carrier.num_items_y = 1
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carrier.num_items_z = 1
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carrier[0] = YB_ye_Bottle(f"{name}_flask_1")
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return carrier
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# 高粘液瓶载架 - 单个中央位置
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def YB_gaonianye(name: str) -> BottleCarrier:
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 20.0
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# 烧杯尺寸
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beaker_diameter = 60.0
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# 计算中央位置
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center_x = (carrier_size_x - beaker_diameter) / 2
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center_y = (carrier_size_y - beaker_diameter) / 2
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center_z = 5.0
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=create_homogeneous_resources(
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klass=ResourceHolder,
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locations=[Coordinate(center_x, center_y, center_z)],
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resource_size_x=beaker_diameter,
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resource_size_y=beaker_diameter,
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name_prefix=name,
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),
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model="YB_gaonianye",
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)
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carrier.num_items_x = 1
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carrier.num_items_y = 1
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carrier.num_items_z = 1
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carrier[0] = YB_gao_nian_ye_Bottle(f"{name}_flask_1")
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return carrier
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# 100ml液体瓶载架 - 单个中央位置
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def YB_100ml_yeti(name: str) -> BottleCarrier:
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 20.0
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# 烧杯尺寸
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beaker_diameter = 60.0
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# 计算中央位置
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center_x = (carrier_size_x - beaker_diameter) / 2
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center_y = (carrier_size_y - beaker_diameter) / 2
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center_z = 5.0
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carrier = BottleCarrier(
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name=name,
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size_x=carrier_size_x,
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size_y=carrier_size_y,
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size_z=carrier_size_z,
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sites=create_homogeneous_resources(
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klass=ResourceHolder,
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locations=[Coordinate(center_x, center_y, center_z)],
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resource_size_x=beaker_diameter,
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resource_size_y=beaker_diameter,
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name_prefix=name,
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),
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model="YB_100ml_yeti",
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)
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carrier.num_items_x = 1
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carrier.num_items_y = 1
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carrier.num_items_z = 1
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carrier[0] = YB_ye_100ml_Bottle(f"{name}_flask_1")
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return carrier
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# 5ml分液瓶板 - 4x2布局,8个位置
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def YB_5ml_fenyepingban(name: str) -> BottleCarrier:
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# 载架尺寸 (mm)
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carrier_size_x = 127.8
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carrier_size_y = 85.5
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carrier_size_z = 50.0
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# 瓶位尺寸
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bottle_diameter = 15.0
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bottle_spacing_x = 42.0 # X方向间距
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bottle_spacing_y = 35.0 # Y方向间距
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# 计算起始位置 (居中排列)
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start_x = (carrier_size_x - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
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start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
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sites = create_ordered_items_2d(
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klass=ResourceHolder,
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num_items_x=4,
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||||
num_items_y=2,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=bottle_spacing_x,
|
||||
item_dy=bottle_spacing_y,
|
||||
size_x=bottle_diameter,
|
||||
size_y=bottle_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_5ml_fenyepingban",
|
||||
)
|
||||
carrier.num_items_x = 4
|
||||
carrier.num_items_y = 2
|
||||
carrier.num_items_z = 1
|
||||
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
|
||||
for i in range(8):
|
||||
carrier[i] = YB_5ml_fenyeping(f"{name}_vial_{ordering[i]}")
|
||||
return carrier
|
||||
|
||||
# 20ml分液瓶板 - 4x2布局,8个位置
|
||||
def YB_20ml_fenyepingban(name: str) -> BottleCarrier:
|
||||
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 70.0
|
||||
|
||||
# 瓶位尺寸
|
||||
bottle_diameter = 20.0
|
||||
bottle_spacing_x = 42.0 # X方向间距
|
||||
bottle_spacing_y = 35.0 # Y方向间距
|
||||
|
||||
# 计算起始位置 (居中排列)
|
||||
start_x = (carrier_size_x - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
|
||||
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
|
||||
|
||||
sites = create_ordered_items_2d(
|
||||
klass=ResourceHolder,
|
||||
num_items_x=4,
|
||||
num_items_y=2,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=bottle_spacing_x,
|
||||
item_dy=bottle_spacing_y,
|
||||
size_x=bottle_diameter,
|
||||
size_y=bottle_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_20ml_fenyepingban",
|
||||
)
|
||||
carrier.num_items_x = 4
|
||||
carrier.num_items_y = 2
|
||||
carrier.num_items_z = 1
|
||||
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
|
||||
for i in range(8):
|
||||
carrier[i] = YB_20ml_fenyeping(f"{name}_vial_{ordering[i]}")
|
||||
return carrier
|
||||
|
||||
# 配液瓶(小)板 - 4x2布局,8个位置
|
||||
def YB_peiyepingxiaoban(name: str) -> BottleCarrier:
|
||||
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 65.0
|
||||
|
||||
# 瓶位尺寸
|
||||
bottle_diameter = 35.0
|
||||
bottle_spacing_x = 42.0 # X方向间距
|
||||
bottle_spacing_y = 35.0 # Y方向间距
|
||||
|
||||
# 计算起始位置 (居中排列)
|
||||
start_x = (carrier_size_x - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
|
||||
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
|
||||
|
||||
sites = create_ordered_items_2d(
|
||||
klass=ResourceHolder,
|
||||
num_items_x=4,
|
||||
num_items_y=2,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=bottle_spacing_x,
|
||||
item_dy=bottle_spacing_y,
|
||||
size_x=bottle_diameter,
|
||||
size_y=bottle_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_peiyepingxiaoban",
|
||||
)
|
||||
carrier.num_items_x = 4
|
||||
carrier.num_items_y = 2
|
||||
carrier.num_items_z = 1
|
||||
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
|
||||
for i in range(8):
|
||||
carrier[i] = YB_pei_ye_xiao_Bottle(f"{name}_bottle_{ordering[i]}")
|
||||
return carrier
|
||||
|
||||
|
||||
# 配液瓶(大)板 - 2x2布局,4个位置
|
||||
def YB_peiyepingdaban(name: str) -> BottleCarrier:
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 95.0
|
||||
|
||||
# 瓶位尺寸
|
||||
bottle_diameter = 55.0
|
||||
bottle_spacing_x = 60.0 # X方向间距
|
||||
bottle_spacing_y = 60.0 # Y方向间距
|
||||
|
||||
# 计算起始位置 (居中排列)
|
||||
start_x = (carrier_size_x - (2 - 1) * bottle_spacing_x - bottle_diameter) / 2
|
||||
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
|
||||
|
||||
sites = create_ordered_items_2d(
|
||||
klass=ResourceHolder,
|
||||
num_items_x=2,
|
||||
num_items_y=2,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=bottle_spacing_x,
|
||||
item_dy=bottle_spacing_y,
|
||||
size_x=bottle_diameter,
|
||||
size_y=bottle_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_peiyepingdaban",
|
||||
)
|
||||
carrier.num_items_x = 2
|
||||
carrier.num_items_y = 2
|
||||
carrier.num_items_z = 1
|
||||
ordering = ["A1", "A2", "B1", "B2"]
|
||||
for i in range(4):
|
||||
carrier[i] = YB_pei_ye_da_Bottle(f"{name}_bottle_{ordering[i]}")
|
||||
return carrier
|
||||
|
||||
# 加样头(大)板 - 1x1布局,1个位置
|
||||
def YB_jia_yang_tou_da_Carrier(name: str) -> BottleCarrier:
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 95.0
|
||||
|
||||
# 瓶位尺寸
|
||||
bottle_diameter = 35.0
|
||||
bottle_spacing_x = 42.0 # X方向间距
|
||||
bottle_spacing_y = 35.0 # Y方向间距
|
||||
|
||||
# 计算起始位置 (居中排列)
|
||||
start_x = (carrier_size_x - (1 - 1) * bottle_spacing_x - bottle_diameter) / 2
|
||||
start_y = (carrier_size_y - (1 - 1) * bottle_spacing_y - bottle_diameter) / 2
|
||||
|
||||
sites = create_ordered_items_2d(
|
||||
klass=ResourceHolder,
|
||||
num_items_x=1,
|
||||
num_items_y=1,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=bottle_spacing_x,
|
||||
item_dy=bottle_spacing_y,
|
||||
size_x=bottle_diameter,
|
||||
size_y=bottle_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_jia_yang_tou_da_Carrier",
|
||||
)
|
||||
carrier.num_items_x = 1
|
||||
carrier.num_items_y = 1
|
||||
carrier.num_items_z = 1
|
||||
carrier[0] = YB_jia_yang_tou_da(f"{name}_head_1")
|
||||
return carrier
|
||||
|
||||
|
||||
def YB_shi_pei_qi_kuai(name: str) -> BottleCarrier:
|
||||
"""适配器块 - 单个中央位置"""
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 30.0
|
||||
|
||||
# 适配器尺寸
|
||||
adapter_diameter = 80.0
|
||||
|
||||
# 计算中央位置
|
||||
center_x = (carrier_size_x - adapter_diameter) / 2
|
||||
center_y = (carrier_size_y - adapter_diameter) / 2
|
||||
center_z = 0.0
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=create_homogeneous_resources(
|
||||
klass=ResourceHolder,
|
||||
locations=[Coordinate(center_x, center_y, center_z)],
|
||||
resource_size_x=adapter_diameter,
|
||||
resource_size_y=adapter_diameter,
|
||||
name_prefix=name,
|
||||
),
|
||||
model="YB_shi_pei_qi_kuai",
|
||||
)
|
||||
carrier.num_items_x = 1
|
||||
carrier.num_items_y = 1
|
||||
carrier.num_items_z = 1
|
||||
# 适配器块本身不包含瓶子,只是一个支撑结构
|
||||
return carrier
|
||||
|
||||
|
||||
def YB_qiang_tou_he(name: str) -> BottleCarrier:
|
||||
"""枪头盒 - 8x12布局,96个位置"""
|
||||
|
||||
# 载架尺寸 (mm)
|
||||
carrier_size_x = 127.8
|
||||
carrier_size_y = 85.5
|
||||
carrier_size_z = 55.0
|
||||
|
||||
# 枪头尺寸
|
||||
tip_diameter = 10.0
|
||||
tip_spacing_x = 9.0 # X方向间距
|
||||
tip_spacing_y = 9.0 # Y方向间距
|
||||
|
||||
# 计算起始位置 (居中排列)
|
||||
start_x = (carrier_size_x - (12 - 1) * tip_spacing_x - tip_diameter) / 2
|
||||
start_y = (carrier_size_y - (8 - 1) * tip_spacing_y - tip_diameter) / 2
|
||||
|
||||
sites = create_ordered_items_2d(
|
||||
klass=ResourceHolder,
|
||||
num_items_x=12,
|
||||
num_items_y=8,
|
||||
dx=start_x,
|
||||
dy=start_y,
|
||||
dz=5.0,
|
||||
item_dx=tip_spacing_x,
|
||||
item_dy=tip_spacing_y,
|
||||
size_x=tip_diameter,
|
||||
size_y=tip_diameter,
|
||||
size_z=carrier_size_z,
|
||||
)
|
||||
for k, v in sites.items():
|
||||
v.name = f"{name}_{v.name}"
|
||||
|
||||
carrier = BottleCarrier(
|
||||
name=name,
|
||||
size_x=carrier_size_x,
|
||||
size_y=carrier_size_y,
|
||||
size_z=carrier_size_z,
|
||||
sites=sites,
|
||||
model="YB_qiang_tou_he",
|
||||
)
|
||||
carrier.num_items_x = 12
|
||||
carrier.num_items_y = 8
|
||||
carrier.num_items_z = 1
|
||||
# 创建96个枪头
|
||||
for i in range(96):
|
||||
row = chr(65 + i // 12) # A-H
|
||||
col = (i % 12) + 1 # 1-12
|
||||
carrier[i] = YB_qiang_tou(f"{name}_tip_{row}{col}")
|
||||
return carrier
|
||||
|
||||
Reference in New Issue
Block a user