def generateNode(self, parent_node, depth, assigned_key):
        attribute = Attribute(self.attribute, self.rule[assigned_key]["attributes"])
        # node = Node(parent_node, )
        for i in range(len(self.rule[assigned_key]["attributes"])):
            attribute.assign_value(i, None)
        for i,  enabled in enumerate(attribute.enabledAttributes):
            value = None
            if enabled:
                if attribute.activatedAttributes[i] == AttributeSet.content:
                    if assigned_key == LeafKey.button.value:
                        value = "\"" + get_random_text(10, 1) + "\""
                    elif assigned_key == LeafKey.title.value:
                        value = "\"" + get_random_text(5, 0) + "\""
                    else:
                        value = "\"" + get_random_text(30, 5, False) + "\""
                    attribute.assign_value(i, value)
                else:
                    try:
                        group_value = random.choice(list(self.rule[assigned_key]["attributes_set"]["groups"]))
                        for j, v in enumerate(group_value):
                            attribute.assign_value(i+j, v.value)
                    except KeyError:
                        value = random.choice(list(self.rule[assigned_key]["attributes_set"][attribute.activatedAttributes[i].value])).value
                        attribute.assign_value(i, value)

        return Node(assigned_key, parent_node, attribute, depth)
Exemplo n.º 2
0
 def __init__(self,
              mapping_file_path,
              rule=1,
              node_tree=Node(RootKey.body.value, None, Attribute())):
     with open(mapping_file_path) as data_file:
         self.html_mapping = json.load(data_file)
     self.rule = getRule(rule)
     self.activatedAttributes = self.rule["attributes"]
     self.node_tree = node_tree
     self.node_opening_tag = Tag.node_opening.value
     self.node_closing_tag = Tag.node_closing.value
     self.attr_opening_tag = Tag.attr_opening.value
     self.attr_closing_tag = Tag.attr_closing.value
Exemplo n.º 3
0
 def dsl_to_node_tree(self, dsl_file_path) -> Node:
     self.node_tree = Node(
         RootKey.body.value, None,
         Attribute(self.activatedAttributes,
                   self.rule[RootKey.body.value]["attributes"]))
     depth = 1
     dsl = []
     with open(dsl_file_path, 'r') as dsl_file:
         dsl = dsl_file.read().split()
     current_parent_node = self.node_tree
     current_node = self.node_tree
     in_attr_flag = False
     attr = []
     for token in dsl:
         if token == self.node_opening_tag:
             current_parent_node = current_node
             depth += 1
         elif token == self.node_closing_tag:
             depth -= 1
             current_parent_node = current_parent_node.parent
         elif token == self.attr_opening_tag:
             in_attr_flag = True
             attr = []
         elif token == self.attr_closing_tag:
             in_attr_flag = False
             current_node.attributes.list_to_attribut(
                 self._reconstruct_attr_block(current_node.key, attr))
         else:
             if in_attr_flag:
                 attr.append(token)
             else:
                 current_node = Node(
                     token, current_parent_node,
                     Attribute(self.activatedAttributes,
                               self.rule[token]["attributes"]), depth)
                 current_parent_node.add_child(current_node)
     return self.node_tree
Exemplo n.º 4
0
def generateNode(parent_node, depth, assigned_key=None) -> Node:
    pool = []
    key = None
    if assigned_key:
        key = assigned_key
    else:
        if parent_node.key in GENERATE_RULE['enabled_children']:
            pool = GENERATE_RULE['enabled_children'][parent_node.key]

        if MAX_DEPTH - depth == 1:
            for node_enum in GENERATE_RULE['disabled_layer']['last_1']:
                if node_enum in pool:
                    pool.remove(node_enum)
        elif MAX_DEPTH - depth == 0:
            for node_enum in GENERATE_RULE['disabled_layer']['last']:
                if node_enum in pool:
                    pool.remove(node_enum)
        key = random.choice(pool).value
    # print(parent_node.key, depth, pool)
    attribute = Attribute(None, None, None)
    if key in getEnumList(GENERATE_RULE['attributes']['none']):
        pass
    else:
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_font_color_node']):
            color = random.choice(list(Color)).value
            attribute.set_font_color(color)
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_bg_color_node']):
            color = random.choice(list(Color)).value
            attribute.set_bg_color(color)
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_content_node']):
            content = get_random_text(5 if parent_node.key ==
                                      NodeKey.button.value else 10)
            attribute.set_content("\"" + content + "\"")

    return Node(key, parent_node, attribute, depth)
    def generateNodeTree(self, parent_node: Node, parent_depth):
        node = None
        pool = []
        children_num = 1
        children_group_flag = False
        reciprocal_layer_layer = self.max_depth - parent_depth - 1
        brothers_limit = self.rule[parent_node.key]["children_brothers"]
        children_brother_node = None
        # print("-----\n", parent_node.key)
        # print("children len: ", len(self.rule[parent_node.key]["children"]), " / group: ", self.rule[parent_node.key]["children_group"] , " / reciprocal: ", (reciprocal_layer_layer))
        if ((self.rule[parent_node.key]["children_group"] == None) and len(self.rule[parent_node.key]["children"]) == 0) or (reciprocal_layer_layer < 0):
            return parent_node

        if self.rule[parent_node.key]["children_group"]:
            
            if self.rule[parent_node.key]["children_group"]["enable"] == Operator.random:
                children_group_flag = random.choice([False, True])
                # print("random group: ", children_group_flag)
            elif self.rule[parent_node.key]["children_group"]["enable"] == Operator.true:
                children_group_flag = True
            if reciprocal_layer_layer <=1:
                children_group_flag = True

        if children_group_flag:
            if len(self.rule[parent_node.key]["children_group"]["nodes"])> 1:
                i = random.randrange(len(self.rule[parent_node.key]["children_group"]["nodes"]))
            else:
                i=0
            pool = self.rule[parent_node.key]["children_group"]["nodes"][i]
        else:
            pool = self.rule[parent_node.key]["children"]
            for node in pool:
                if reciprocal_layer_layer in self.rule[node.value]["disabled_reciprocal_layer"]:
                    pool.remove(node)


        if children_group_flag:
            children_num = len(pool)
        elif self.rule[parent_node.key]["children_quantity"]:

            if self.rule[parent_node.key]["children_quantity"]["operator"] == Operator.equal:
                children_num = self.rule[parent_node.key]["children_quantity"]["value"]
            elif self.rule[parent_node.key]["children_quantity"]["operator"] == Operator.equal_more_then:
                children_num = random.randrange(
                    self.rule[parent_node.key]["children_quantity"]["value"], self.max_each_layer_node_num)
            elif self.rule[parent_node.key]["children_quantity"]["operator"] == Operator.between:
                children_num = random.randrange(
                    self.rule[parent_node.key]["children_quantity"]["value"][0], self.rule[parent_node.key]["children_quantity"]["value"][1])
            
            if parent_node.key == NodeKey.row.value and parent_depth == 1:
                if self.rule[parent_node.key]["children_quantity"]["operator"] == Operator.equal_more_then:
                    children_num = random.randrange(
                    1, self.max_each_layer_node_num)
                elif self.rule[parent_node.key]["children_quantity"]["operator"] == Operator.between:
                    children_num = random.randrange(
                        1, self.rule[parent_node.key]["children_quantity"]["value"][1])
        


        else:
            children_num = random.randrange(1, self.max_each_layer_node_num)
        
        for index in range(children_num):
            if children_group_flag:
                node = self.generateNode(
                    parent_node,  parent_depth+1, pool[index].value)
            elif brothers_limit == Operator.same:
                if index == 0:
                    node = self.generateNode(
                        parent_node,  parent_depth+1, random.choice(pool).value)
                    children_brother_node = node.key
                else:
                    node = self.generateNode(
                        parent_node,  parent_depth+1, children_brother_node)
            else:
                node = self.generateNode(
                    parent_node,  parent_depth+1, random.choice(pool).value)

            node = self.generateNodeTree(node, parent_depth+1)
            parent_node.add_child(node) 

        return parent_node
Exemplo n.º 6
0
                    pool.remove(node_enum)
        key = random.choice(pool).value
    # print(parent_node.key, depth, pool)
    attribute = Attribute(None, None, None)
    if key in getEnumList(GENERATE_RULE['attributes']['none']):
        pass
    else:
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_font_color_node']):
            color = random.choice(list(Color)).value
            attribute.set_font_color(color)
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_bg_color_node']):
            color = random.choice(list(Color)).value
            attribute.set_bg_color(color)
        if key in getEnumList(
                GENERATE_RULE['attributes']['have_content_node']):
            content = get_random_text(5 if parent_node.key ==
                                      NodeKey.button.value else 10)
            attribute.set_content("\"" + content + "\"")

    return Node(key, parent_node, attribute, depth)


if __name__ == "__main__":
    root = Node(RootKey.body.value, None, Attribute(None, None, None))
    tree = generateNodeTree(root, 0)
    print(tree.toDSL())
    print("=================================")
    print(tree.to_row_col_DSL())
Exemplo n.º 7
0
class Compiler:
    def __init__(self,
                 mapping_file_path,
                 rule=1,
                 node_tree=Node(RootKey.body.value, None, Attribute())):
        with open(mapping_file_path) as data_file:
            self.html_mapping = json.load(data_file)
        self.rule = getRule(rule)
        self.activatedAttributes = self.rule["attributes"]
        self.node_tree = node_tree
        self.node_opening_tag = Tag.node_opening.value
        self.node_closing_tag = Tag.node_closing.value
        self.attr_opening_tag = Tag.attr_opening.value
        self.attr_closing_tag = Tag.attr_closing.value

    def dsl_to_node_tree(self, dsl_file_path) -> Node:
        self.node_tree = Node(
            RootKey.body.value, None,
            Attribute(self.activatedAttributes,
                      self.rule[RootKey.body.value]["attributes"]))
        depth = 1
        dsl = []
        with open(dsl_file_path, 'r') as dsl_file:
            dsl = dsl_file.read().split()
        current_parent_node = self.node_tree
        current_node = self.node_tree
        in_attr_flag = False
        attr = []
        for token in dsl:
            if token == self.node_opening_tag:
                current_parent_node = current_node
                depth += 1
            elif token == self.node_closing_tag:
                depth -= 1
                current_parent_node = current_parent_node.parent
            elif token == self.attr_opening_tag:
                in_attr_flag = True
                attr = []
            elif token == self.attr_closing_tag:
                in_attr_flag = False
                current_node.attributes.list_to_attribut(
                    self._reconstruct_attr_block(current_node.key, attr))
            else:
                if in_attr_flag:
                    attr.append(token)
                else:
                    current_node = Node(
                        token, current_parent_node,
                        Attribute(self.activatedAttributes,
                                  self.rule[token]["attributes"]), depth)
                    current_parent_node.add_child(current_node)
        return self.node_tree

    def _reconstruct_attr_block(self, node, attr) -> list:
        temp = [None] * len(self.activatedAttributes)
        try:
            context_idx = self.activatedAttributes.index(AttributeSet.content)
        except:
            context_idx = -1
        temp_text = ""
        isText = False
        for token in attr:
            if (not isText) and ('\"' in token):
                isText = True
                temp_text = token
            elif isText and ('\"' in token):
                isText = False
                temp_text += " " + token
                temp[context_idx] = temp_text
            elif isText:
                temp_text += " " + token
            # elif token == "None":
            #     temp.append(None)
            else:
                for attrIdx, activatedAttr in enumerate(
                        self.activatedAttributes):
                    try:
                        attr_set = self.rule[node]["attributes_set"][
                            activatedAttr.value]
                        if token in [attr.value for attr in attr_set]:
                            temp[attrIdx] = token
                    except KeyError:
                        pass
        if len(temp_text) > 0 and isText:
            isText = False
            temp[context_idx] = temp_text

        if context_idx >= 0 and self.rule[node]["attributes"][
                context_idx] and temp[context_idx] == None:
            if node == LeafKey.button.value:
                temp[context_idx] = get_random_text(10, 1)
            elif node == LeafKey.title.value:
                temp[context_idx] = get_random_text(5, 0)
            else:
                temp[context_idx] = get_random_text(30, 5, False)
        return temp

    def node_tree_to_dsl(self,
                         output_file_path,
                         row_col_only=False,
                         with_context=True) -> str:
        dsl = self.node_tree.to_row_col_DSL(
        ) if row_col_only else self.node_tree.toDSL(with_context=with_context)
        with open(output_file_path, 'w+') as dsl_file:
            dsl_file.write(dsl)
        return dsl

    def node_tree_to_html(self, output_file_path, file_name):
        html = self.node_tree.toHTML(self.html_mapping, file_name)
        with open(output_file_path, 'w+') as html_file:
            html_file.write(html)
        return html
from datasetCode.data_transform.tag_for_yolo import manual_class_tag_from_file

import os
if __name__ == "__main__":

    RANDOM_GENERATOR = False
    SKELETON_TO_HTML_ONLY = False
    WEB_SCREENSHOOT = False
    RULE = 4
    if RANDOM_GENERATOR:
        rule = getRule(RULE)
        generator = NodeTreeGenerator(rule=RULE)
        for i in range(500, 600):
            print(i)
            root = Node(
                RootKey.body.value, None,
                Attribute(rule["attributes"],
                          rule[RootKey.body.value]["attributes"]))
            tree = generator.generateNodeTree(root, 0)
            compiler = Compiler(path.DATASET3_DSL_MAPPING_JSON_FILE,
                                rule=RULE,
                                node_tree=tree)
            # compiler = Compiler(path.DATASET2_DSL_MAPPING_JSON_FILE, rule=2)
            compiler.node_tree_to_dsl(path.DATASET3_ORIGIN_GUI + str(i) +
                                      TYPE.GUI)
            # compiler.node_tree_to_dsl(path.DATASET2_ROWCOL_GUI+str(i)+TYPE.GUI, True)
            compiler.node_tree_to_dsl(path.DATASET3_ORIGIN_NO_CONTEXT_GUI +
                                      str(i) + TYPE.GUI,
                                      with_context=False)
            # tree = compiler.dsl_to_node_tree(path.DATASET2_ORIGIN_GUI+str(i)+TYPE.GUI)
            # print(tree.show())
            html = compiler.node_tree_to_html(