tools/glave/scripts/code_gen.py

import argparse
import os
import sys

# code_gen.py overview
# This script generates code based on input headers
# Initially it's intended to support Mantle and XGL headers and
#  generate wrappers functions that can be used to display
#  structs in a human-readable txt format, as well as utility functions
#  to print enum values as strings


def handle_args():
    parser = argparse.ArgumentParser(description='Perform analysis of vogl trace.')
    parser.add_argument('input_file', help='The input header file from which code will be generated.')
    parser.add_argument('--rel_out_dir', required=False, default='glave_gen', help='Path relative to exec path to write output files. Will be created if needed.')
    parser.add_argument('--abs_out_dir', required=False, default=None, help='Absolute path to write output files. Will be created if needed.')
    parser.add_argument('--gen_graphviz', required=False, action='store_true', default=False, help='Enable generation of graphviz dot file.')
    #parser.add_argument('--test', action='store_true', default=False, help='Run simple test.')
    return parser.parse_args()

# TODO : Ideally these data structs would be opaque to user and could be wrapped
#   in their own class(es) to make them friendly for data look-up
# Dicts for Data storage
# enum_val_dict[value_name] = dict keys are the string enum value names for all enums
#    |-------->['type'] = the type of enum class into which the value falls
#    |-------->['val'] = the value assigned to this particular value_name
#    '-------->['unique'] = bool designating if this enum 'val' is unique within this enum 'type'
enum_val_dict = {}
# enum_type_dict['type'] = the type or class of of enum
#  '----->['val_name1', 'val_name2'...] = each type references a list of val_names within this type
enum_type_dict = {}
# struct_dict['struct_basename'] = the base (non-typedef'd) name of the struct
#  |->[<member_num>] = members are stored via their integer placement in the struct
#  |    |->['name'] = string name of this struct member
# ...   |->['full_type'] = complete type qualifier for this member
#       |->['type'] = base type for this member
#       |->['ptr'] = bool indicating if this member is ptr
#       |->['const'] = bool indicating if this member is const
#       |->['struct'] = bool indicating if this member is a struct type
#       |->['array'] = bool indicating if this member is an array
#       '->['array_size'] = int indicating size of array members (0 by default)
struct_dict = {}
# typedef_fwd_dict stores mapping from orig_type_name -> new_type_name
typedef_fwd_dict = {}
# typedef_rev_dict stores mapping from new_type_name -> orig_type_name
typedef_rev_dict = {} # store new_name -> orig_name mapping
# types_dict['id_name'] = identifier name will map to it's type
#              '---->'type' = currently either 'struct' or 'enum'
types_dict = {}   # store orig_name -> type mapping


# Class that parses header file and generates data structures that can
#  Then be used for other tasks
class HeaderFileParser:
    def __init__(self, header_file=None):
        self.header_file = header_file
        # store header data in various formats, see above for more info
        self.enum_val_dict = {}
        self.enum_type_dict = {}
        self.struct_dict = {}
        self.typedef_fwd_dict = {}
        self.typedef_rev_dict = {}
        self.types_dict = {}
        
    def setHeaderFile(self, header_file):
        self.header_file = header_file

    def get_enum_val_dict(self):
        return self.enum_val_dict

    def get_enum_type_dict(self):
        return self.enum_type_dict

    def get_struct_dict(self):
        return self.struct_dict

    def get_typedef_fwd_dict(self):
        return self.typedef_fwd_dict

    def get_typedef_rev_dict(self):
        return self.typedef_rev_dict

    def get_types_dict(self):
        return self.types_dict

    # Parse header file into data structures
    def parse(self):
        # parse through the file, identifying different sections
        parse_enum = False
        parse_struct = False
        member_num = 0
        # TODO : Comment parsing is very fragile but handles 2 known files
        block_comment = False
        with open(self.header_file) as f:
            for line in f:
                if block_comment:
                    if '*/' in line:
                        block_comment = False
                    continue
                if '/*' in line:
                    block_comment = True
                elif 0 == len(line.split()):
                    #print("Skipping empty line")
                    continue
                elif line.split()[0].strip().startswith("//"):
                    #print("Skipping commentted line %s" % line)
                    continue
                elif 'typedef enum' in line:
                    (ty_txt, en_txt, base_type) = line.strip().split(None, 2)
                    #print("Found ENUM type %s" % base_type)
                    parse_enum = True
                    self.types_dict[base_type] = 'enum'
                elif 'typedef struct' in line:
                    (ty_txt, st_txt, base_type) = line.strip().split(None, 2)
                    #print("Found STRUCT type: %s" % base_type)
                    parse_struct = True
                    self.types_dict[base_type] = 'struct'
                elif '}' in line and (parse_enum or parse_struct):
                    if len(line.split()) > 1: # deals with embedded union in one struct
                        parse_enum = False
                        parse_struct = False
                        member_num = 0
                        # TODO : Can pull target of typedef here for remapping
                        (cur_char, targ_type) = line.strip().split(None, 1)
                        self.typedef_fwd_dict[base_type] = targ_type.strip(';')
                        self.typedef_rev_dict[targ_type.strip(';')] = base_type
                elif parse_enum:
                    if '=' in line:
                        self._add_enum(line, base_type)
                elif parse_struct:
                    if ';' in line:
                        self._add_struct(line, base_type, member_num)
                        member_num = member_num + 1
                #elif '(' in line:
                    #print("Function: %s" % line)
    
    # populate enum dicts based on enum lines
    def _add_enum(self, line_txt, enum_type):    
        #print("Parsing enum line %s" % line_txt)
        (enum_name, eq_char, enum_val) = line_txt.split(None, 2)
        if '=' != eq_char:
            print("ERROR: Couldn't parse enum line: %s" % line_txt)
        self.enum_val_dict[enum_name] = {}
        self.enum_val_dict[enum_name]['type'] = enum_type
        # strip comma and comment, then extra split in case of no comma w/ comments
        enum_val = enum_val.strip().split(',', 1)[0]
        self.enum_val_dict[enum_name]['val'] = enum_val.split()[0]
        # TODO : Make this more robust, to verify if enum value is unique
        #  Currently just try to cast to int which works ok but missed -(HEX) values
        try:
            #print("ENUM val:", self.enum_val_dict[enum_name]['val'])
            int(self.enum_val_dict[enum_name]['val'], 0)
            self.enum_val_dict[enum_name]['unique'] = True
            #print("ENUM has num value")
        except ValueError:
            self.enum_val_dict[enum_name]['unique'] = False
            #print("ENUM is not a number value")
        # Update enum_type_dict as well
        if not enum_type in self.enum_type_dict:
            self.enum_type_dict[enum_type] = []
        self.enum_type_dict[enum_type].append(enum_name)
    
    # populate struct dicts based on struct lines
    # TODO : Handle ":" bitfield, "**" ptr->ptr and "const type*const*"
    def _add_struct(self, line_txt, struct_type, num):
        #print("Parsing struct line %s" % line_txt)
        if not struct_type in self.struct_dict:
            self.struct_dict[struct_type] = {}
        members = line_txt.strip().split(';', 1)[0] # first strip semicolon & comments
        # TODO : Handle bitfields more correctly
        members = members.strip().split(':', 1)[0] # strip bitfield element
        (member_type, member_name) = members.rsplit(None, 1)
        self.struct_dict[struct_type][num] = {}
        self.struct_dict[struct_type][num]['full_type'] = member_type
        if '*' in member_type:
            self.struct_dict[struct_type][num]['ptr'] = True
            member_type = member_type.strip('*')
        else:
            self.struct_dict[struct_type][num]['ptr'] = False
        if 'const' in member_type:
            self.struct_dict[struct_type][num]['const'] = True
            member_type = member_type.strip('const').strip()
        else:
            self.struct_dict[struct_type][num]['const'] = False
        if is_type(member_type, 'struct'):
            self.struct_dict[struct_type][num]['struct'] = True
        else:
            self.struct_dict[struct_type][num]['struct'] = False
        self.struct_dict[struct_type][num]['type'] = member_type
        if '[' in member_name:
            (member_name, array_size) = member_name.split('[', 1)
            self.struct_dict[struct_type][num]['array'] = True
            self.struct_dict[struct_type][num]['array_size'] = array_size.strip(']')
        else:
            self.struct_dict[struct_type][num]['array'] = False
            self.struct_dict[struct_type][num]['array_size'] = 0
        self.struct_dict[struct_type][num]['name'] = member_name

# check if given identifier if of specified type_to_check
def is_type(identifier, type_to_check):
    #print("Checking if %s is type %s" % (identifier, type_to_check))
    if identifier in types_dict and type_to_check == types_dict[identifier]:
        return True
    if identifier in typedef_rev_dict:
        new_id = typedef_rev_dict[identifier]
        if new_id in types_dict and type_to_check == types_dict[new_id]:
            return True
    return False

def recreate_structs():
    for struct_name in struct_dict:
        sys.stdout.write("typedef struct %s\n{\n" % struct_name)
        for mem_num in sorted(struct_dict[struct_name]):
            sys.stdout.write("    ")
            if struct_dict[struct_name][mem_num]['const']:
                sys.stdout.write("const ")
            #if struct_dict[struct_name][mem_num]['struct']:
            #    sys.stdout.write("struct ")
            sys.stdout.write (struct_dict[struct_name][mem_num]['type'])
            if struct_dict[struct_name][mem_num]['ptr']:
                sys.stdout.write("*")
            sys.stdout.write(" ")
            sys.stdout.write(struct_dict[struct_name][mem_num]['name'])
            if struct_dict[struct_name][mem_num]['array']:
                sys.stdout.write("[")
                sys.stdout.write(struct_dict[struct_name][mem_num]['array_size'])
                sys.stdout.write("]")
            sys.stdout.write(";\n")
        sys.stdout.write("} ")
        sys.stdout.write(typedef_fwd_dict[struct_name])
        sys.stdout.write(";\n\n")

# class for writing common file elements
# Here's how this class lays out a file:
#  COPYRIGHT
#  HEADER
#  BODY
#  FOOTER
#
# For each of these sections, there's a "set*" function
# The class as a whole has a generate function which will write each section in order
class CommonFileGen:
    def __init__(self, filename=None, copyright_txt="", header_txt="", body_txt="", footer_txt=""):
        self.filename = filename
        self.contents = {'copyright': copyright_txt, 'header': header_txt, 'body': body_txt, 'footer': footer_txt}
        # TODO : Set a default copyright & footer at least
    
    def setFilename(self, filename):
        self.filename = filename
        
    def setCopyright(self, c):
        self.contents['copyright'] = c
        
    def setHeader(self, h):
        self.contents['header'] = h
        
    def setBody(self, b):
        self.contents['body'] = b
        
    def setFooter(self, f):
        self.contents['footer'] = f
        
    def generate(self):
        #print("Generate to file %s" % self.filename)
        with open(self.filename, "w") as f:
            f.write(self.contents['copyright'])
            f.write(self.contents['header'])
            f.write(self.contents['body'])
            f.write(self.contents['footer'])

# class for writing a wrapper class for structures
# The wrapper class wraps the structs and includes utility functions for
#  setting/getting member values and displaying the struct data in various formats
class StructWrapperGen:
    def __init__(self, in_struct_dict, prefix, out_dir):
        self.struct_dict = in_struct_dict
        self.include_headers = []
        self.api = prefix
        self.header_filename = os.path.join(out_dir, self.api+"_struct_wrappers.h")
        self.class_filename = os.path.join(out_dir, self.api+"_struct_wrappers.cpp")
        self.string_helper_filename = os.path.join(out_dir, self.api+"_struct_string_helper.h")
        self.hfg = CommonFileGen(self.header_filename)
        self.cfg = CommonFileGen(self.class_filename)
        self.shg = CommonFileGen(self.string_helper_filename)
        #print(self.header_filename)
        self.header_txt = ""
        self.definition_txt = ""
        
    def set_include_headers(self, include_headers):
        self.include_headers = include_headers

    # Return class name for given struct name
    def get_class_name(self, struct_name):
        class_name = struct_name.strip('_').lower() + "_struct_wrapper"
        return class_name
        
    def get_file_list(self):
        return [os.path.basename(self.header_filename), os.path.basename(self.class_filename), os.path.basename(self.string_helper_filename)]

    # Generate class header file        
    def generateHeader(self):
        self.hfg.setCopyright(self._generateCopyright())
        self.hfg.setHeader(self._generateHeader())
        self.hfg.setBody(self._generateClassDeclaration())
        self.hfg.setFooter(self._generateFooter())
        self.hfg.generate()
    
    # Generate class definition
    def generateBody(self):
        self.cfg.setCopyright(self._generateCopyright())
        self.cfg.setHeader(self._generateCppHeader())
        self.cfg.setBody(self._generateClassDefinition())
        self.cfg.setFooter(self._generateFooter())
        self.cfg.generate()

    # Generate c-style .h file that contains functions for printing structs
    def generateStringHelper(self):
        print("Generating struct string helper")
        self.shg.setCopyright(self._generateCopyright())
        self.shg.setHeader(self._generateHeader())
        self.shg.setBody(self._generateStringHelperFunctions())
        self.shg.generate()

    def _generateCopyright(self):
        return "//This is the copyright\n"

    def _generateCppHeader(self):
        header = []
        header.append("//#includes, #defines, globals and such...\n")
        header.append("#include <stdio.h>\n#include <%s>\n#include <%s_string_helper.h>\n" % (os.path.basename(self.header_filename), self.api))
        return "".join(header)
        
    def _generateClassDefinition(self):
        class_def = []
        if 'xgl' == self.api: # Mantle doesn't have pNext to worry about
            class_def.append(self._generateDynamicPrintFunctions())
        for s in self.struct_dict:
            class_def.append("\n// %s class definition" % self.get_class_name(s))
            class_def.append(self._generateConstructorDefinitions(s))
            class_def.append(self._generateDestructorDefinitions(s))
            class_def.append(self._generateDisplayDefinitions(s))
        return "\n".join(class_def)
        
    def _generateConstructorDefinitions(self, s):
        con_defs = []
        con_defs.append("%s::%s() : m_struct(), m_indent(0), m_dummy_prefix('\\0'), m_origStructAddr(NULL) {}" % (self.get_class_name(s), self.get_class_name(s)))
        # TODO : This is a shallow copy of ptrs
        con_defs.append("%s::%s(%s* pInStruct) : m_indent(0), m_dummy_prefix('\\0')\n{\n    m_struct = *pInStruct;\n    m_origStructAddr = pInStruct;\n}" % (self.get_class_name(s), self.get_class_name(s), typedef_fwd_dict[s]))
        con_defs.append("%s::%s(const %s* pInStruct) : m_indent(0), m_dummy_prefix('\\0')\n{\n    m_struct = *pInStruct;\n    m_origStructAddr = pInStruct;\n}" % (self.get_class_name(s), self.get_class_name(s), typedef_fwd_dict[s]))
        return "\n".join(con_defs)
        
    def _generateDestructorDefinitions(self, s):
        return "%s::~%s() {}" % (self.get_class_name(s), self.get_class_name(s))
        
    def _generateDynamicPrintFunctions(self):
        dp_funcs = []
        dp_funcs.append("\nvoid dynamic_display_full_txt(const XGL_VOID* pStruct, uint32_t indent)\n{\n    // Cast to APP_INFO ptr initially just to pull sType off struct")
        dp_funcs.append("    XGL_STRUCTURE_TYPE sType = ((XGL_APPLICATION_INFO*)pStruct)->sType;    switch (sType)\n    {")
        for e in enum_type_dict:
            class_num = 0
            if "_STRUCTURE_TYPE" in e:
                for v in sorted(enum_type_dict[e]):
                    struct_name = v.replace("_STRUCTURE_TYPE", "")
                    class_name = self.get_class_name(struct_name)
                    # TODO : Hand-coded fixes for some exceptions
                    if 'XGL_PIPELINE_CB_STATE_CREATE_INFO' in struct_name:
                        struct_name = 'XGL_PIPELINE_CB_STATE'
                    elif 'XGL_SEMAPHORE_CREATE_INFO' in struct_name:
                        struct_name = 'XGL_QUEUE_SEMAPHORE_CREATE_INFO'
                        class_name = self.get_class_name(struct_name)
                    elif 'XGL_SEMAPHORE_OPEN_INFO' in struct_name:
                        struct_name = 'XGL_QUEUE_SEMAPHORE_OPEN_INFO'
                        class_name = self.get_class_name(struct_name)
                    instance_name = "swc%i" % class_num
                    dp_funcs.append("        case %s:\n        {" % (v))
                    dp_funcs.append("            %s %s((%s*)pStruct);" % (class_name, instance_name, struct_name))
                    dp_funcs.append("            %s.set_indent(indent);" % (instance_name))
                    dp_funcs.append("            %s.display_full_txt();" % (instance_name))
                    dp_funcs.append("        }")
                    dp_funcs.append("        break;")
                    class_num += 1
                dp_funcs.append("    }")
        dp_funcs.append("}\n")
        return "\n".join(dp_funcs)

    def _get_sh_func_name(self, struct):
        return "%s_print_%s" % (self.api, struct.lower().strip("_"))

    # Return elements to create formatted string for given struct member
    def _get_struct_print_formatted(self, struct_member, pre_var_name="prefix", postfix = "\\n", struct_var_name="pStruct", struct_ptr=True, print_array=False):
        struct_op = "->"
        if not struct_ptr:
            struct_op = "."
        member_name = struct_member['name']
        print_type = "p"
        cast_type = ""
        member_post = ""
        array_index = ""
        member_print_post = ""
        if struct_member['array'] and 'CHAR' in struct_member['type']: # just print char array as string
            print_type = "s"
            print_array = False
        elif struct_member['array'] and not print_array:
            # Just print base address of array when not full print_array
            cast_type = "(void*)"
        elif is_type(struct_member['type'], 'enum'):
            cast_type = "string_%s" % struct_member['type']
            print_type = "s"
        elif is_type(struct_member['type'], 'struct'): # print struct address for now
            cast_type = "(void*)"
            if not struct_member['ptr']:
                cast_type = "(void*)&"
        elif 'BOOL' in struct_member['type']:
            print_type = "s"
            member_post = ' ? "TRUE" : "FALSE"'
        elif 'FLOAT' in struct_member['type']:
            print_type = "f"
        elif 'UINT64' in struct_member['type']:
            print_type = "lu"
        elif 'UINT8' in struct_member['type']:
            print_type = "hu"
        elif True in [ui_str in struct_member['type'] for ui_str in ['UINT', '_SIZE', '_FLAGS', '_SAMPLE_MASK']]:
            print_type = "u"
        elif 'INT' in struct_member['type']:
            print_type = "i"
        elif struct_member['ptr']:
            #cast_type = ""
            pass
        else:
            #print("Unhandled struct type: %s" % struct_member['type'])
            cast_type = "(void*)"
        if print_array and struct_member['array']:
            member_print_post = "[%u]"
            array_index = " i,"
            member_post = "[i]"
        print_out = "%%s%s%s = %%%s%s" % (member_name, member_print_post, print_type, postfix) # section of print that goes inside of quotes
        print_arg = ", %s,%s %s(%s%s%s)%s" % (pre_var_name, array_index, cast_type, struct_var_name, struct_op, member_name, member_post) # section of print passed to portion in quotes
        return (print_out, print_arg)

    def _generateStringHelperFunctions(self):
        sh_funcs = []
        # TODO : Need a nice way to unify all of the different struct type print formatting code
        for s in self.struct_dict:
            p_out = ""
            p_args = ""
            sh_funcs.append('char* %s(const %s* pStruct, const char* prefix)\n{\n    char* str;\n    str = (char*)malloc(sizeof(char)*1024);\n    sprintf(str, "' % (self._get_sh_func_name(s), typedef_fwd_dict[s]))
            for m in sorted(self.struct_dict[s]):
                (p_out1, p_args1) = self._get_struct_print_formatted(self.struct_dict[s][m])
                p_out += p_out1
                p_args += p_args1
            p_out += '"'
            p_args += ");\n    return str;\n}\n"
            sh_funcs.append(p_out)
            sh_funcs.append(p_args)
        return "".join(sh_funcs)
                
        
    def _genStructMemberPrint(self, member, s, array, struct_array):
        (p_out, p_arg) = self._get_struct_print_formatted(self.struct_dict[s][member], pre_var_name="&m_dummy_prefix", struct_var_name="m_struct", struct_ptr=False, print_array=True)
        extra_indent = ""
        if array:
            extra_indent = "    "
        if is_type(self.struct_dict[s][member]['type'], 'struct'): # print struct address for now
            struct_array.insert(0, self.struct_dict[s][member])
        elif self.struct_dict[s][member]['ptr']:
            # Special case for VOID* named "pNext"
            if "VOID" in self.struct_dict[s][member]['type'] and "pNext" == self.struct_dict[s][member]['name']:
                struct_array.insert(0, self.struct_dict[s][member])
        return ('    %sprintf("%%*s    %s", m_indent, ""%s);' % (extra_indent, p_out, p_arg), struct_array)

    def _generateDisplayDefinitions(self, s):
        disp_def = []
        struct_array = []
        # Single-line struct print function
        disp_def.append("// Output 'structname = struct_address' on a single line")
        disp_def.append("void %s::display_single_txt()\n{" % self.get_class_name(s))
        disp_def.append('    printf(" %%*s%s = %%p", m_indent, "", (void*)m_origStructAddr);' % typedef_fwd_dict[s])
        disp_def.append("}\n")
        # Private helper function to print struct members
        disp_def.append("// Private helper function that displays the members of the wrapped struct")
        disp_def.append("void %s::display_struct_members()\n{" % self.get_class_name(s))
        i_declared = False
        for member in sorted(self.struct_dict[s]):
            # TODO : Need to display each member based on its type
            # TODO : Need to handle pNext which are structs, but of XGL_VOID* type
            #   Can grab struct type off of header of struct pointed to
            # TODO : Handle Arrays
            if self.struct_dict[s][member]['array']:
                # Create for loop to print each element of array
                if not i_declared:
                    disp_def.append('    uint32_t i;')
                    i_declared = True
                disp_def.append('    for (i = 0; i<%s; i++) {' % self.struct_dict[s][member]['array_size'])
                (return_str, struct_array) = self._genStructMemberPrint(member, s, True, struct_array)
                disp_def.append(return_str)
                disp_def.append('    }')
            else:
                (return_str, struct_array) = self._genStructMemberPrint(member, s, False, struct_array)
                disp_def.append(return_str)
        disp_def.append("}\n")
        i_declared = False
        # Basic print function to display struct members
        disp_def.append("// Output all struct elements, each on their own line")
        disp_def.append("void %s::display_txt()\n{" % self.get_class_name(s))
        disp_def.append('    printf("%%*s%s struct contents at %%p:\\n", m_indent, "", (void*)m_origStructAddr);' % typedef_fwd_dict[s])
        disp_def.append('    this->display_struct_members();')
        disp_def.append("}\n")
        # Advanced print function to display current struct and contents of any pointed-to structs
        disp_def.append("// Output all struct elements, and for any structs pointed to, print complete contents")
        disp_def.append("void %s::display_full_txt()\n{" % self.get_class_name(s))
        disp_def.append('    printf("%%*s%s struct contents at %%p:\\n", m_indent, "", (void*)m_origStructAddr);' % typedef_fwd_dict[s])
        disp_def.append('    this->display_struct_members();')
        class_num = 0
        # TODO : Need to handle arrays of structs here
        for ms in struct_array:
            swc_name = "class%s" % str(class_num)
            if ms['array']:
                if not i_declared:
                    disp_def.append('    uint32_t i;')
                    i_declared = True
                disp_def.append('    for (i = 0; i<%s; i++) {' % ms['array_size'])
                #disp_def.append("        if (m_struct.%s[i]) {" % (ms['name']))
                disp_def.append("            %s %s(&(m_struct.%s[i]));" % (self.get_class_name(ms['type']), swc_name, ms['name']))
                disp_def.append("            %s.set_indent(m_indent + 4);" % (swc_name))
                disp_def.append("            %s.display_full_txt();" % (swc_name))
                #disp_def.append('        }')
                disp_def.append('    }')
            elif 'pNext' == ms['name']:
                # Need some code trickery here
                #  I'm thinking have a generated function that takes pNext ptr value
                #  then it checks sType and in large switch statement creates appropriate
                #  wrapper class type and then prints contents
                disp_def.append("    if (m_struct.%s) {" % (ms['name']))
                #disp_def.append('        printf("%*s    This is where we would call dynamic print function\\n", m_indent, "");')
                disp_def.append('        dynamic_display_full_txt(m_struct.%s, m_indent);' % (ms['name']))
                disp_def.append("    }")
            else:
                if ms['ptr']:
                    disp_def.append("    if (m_struct.%s) {" % (ms['name']))
                    disp_def.append("        %s %s(m_struct.%s);" % (self.get_class_name(ms['type']), swc_name, ms['name']))
                else:
                    disp_def.append("    if (&m_struct.%s) {" % (ms['name']))
                    disp_def.append("        %s %s(&m_struct.%s);" % (self.get_class_name(ms['type']), swc_name, ms['name']))
                disp_def.append("        %s.set_indent(m_indent + 4);" % (swc_name))
                disp_def.append("        %s.display_full_txt();\n    }" % (swc_name))
            class_num += 1
        disp_def.append("}\n")
        return "\n".join(disp_def)
        
    def _generateHeader(self):
        header = []
        header.append("//#includes, #defines, globals and such...\n")
        for f in self.include_headers:
            header.append("#include <%s>\n" % f)
        return "".join(header)
    
    # Declarations
    def _generateConstructorDeclarations(self, s):
        constructors = []
        constructors.append("    %s();\n" % self.get_class_name(s))
        constructors.append("    %s(%s* pInStruct);\n" % (self.get_class_name(s), typedef_fwd_dict[s]))
        constructors.append("    %s(const %s* pInStruct);\n" % (self.get_class_name(s), typedef_fwd_dict[s]))
        return "".join(constructors)
    
    def _generateDestructorDeclarations(self, s):
        return "    virtual ~%s();\n" % self.get_class_name(s)
        
    def _generateDisplayDeclarations(self, s):
        return "    void display_txt();\n    void display_single_txt();\n    void display_full_txt();\n"
        
    def _generateGetSetDeclarations(self, s):
        get_set = []
        get_set.append("    void set_indent(uint32_t indent) { m_indent = indent; }\n")
        for member in sorted(self.struct_dict[s]):
            # TODO : Skipping array set/get funcs for now
            if self.struct_dict[s][member]['array']:
                continue
            get_set.append("    %s get_%s() { return m_struct.%s; }\n" % (self.struct_dict[s][member]['full_type'], self.struct_dict[s][member]['name'], self.struct_dict[s][member]['name']))
            if not self.struct_dict[s][member]['const']:
                get_set.append("    void set_%s(%s inValue) { m_struct.%s = inValue; }\n" % (self.struct_dict[s][member]['name'], self.struct_dict[s][member]['full_type'], self.struct_dict[s][member]['name']))
        return "".join(get_set)
    
    def _generatePrivateMembers(self, s):
        priv = []
        priv.append("\nprivate:\n")
        priv.append("    %s m_struct;\n" % typedef_fwd_dict[s])
        priv.append("    const %s* m_origStructAddr;\n" % typedef_fwd_dict[s])
        priv.append("    uint32_t m_indent;\n")
        priv.append("    const char m_dummy_prefix;\n")
        priv.append("    void display_struct_members();\n")
        return "".join(priv)
    
    def _generateClassDeclaration(self):
        class_decl = []
        for s in self.struct_dict:
            class_decl.append("\n//class declaration")
            class_decl.append("class %s\n{\npublic:" % self.get_class_name(s))
            class_decl.append(self._generateConstructorDeclarations(s))
            class_decl.append(self._generateDestructorDeclarations(s))
            class_decl.append(self._generateDisplayDeclarations(s))
            class_decl.append(self._generateGetSetDeclarations(s))
            class_decl.append(self._generatePrivateMembers(s))
            class_decl.append("};\n")
        return "\n".join(class_decl)
        
    def _generateFooter(self):
        return "\n//any footer info for class\n"

class EnumCodeGen:
    def __init__(self, enum_type_dict=None, enum_val_dict=None, typedef_fwd_dict=None, in_file=None, out_file=None):
        self.et_dict = enum_type_dict
        self.ev_dict = enum_val_dict
        self.tf_dict = typedef_fwd_dict
        self.in_file = in_file
        self.out_file = out_file
        self.efg = CommonFileGen(self.out_file)
        
    def generateStringHelper(self):
        self.efg.setHeader(self._generateSHHeader())
        self.efg.setBody(self._generateSHBody())
        self.efg.generate()
    
    def _generateSHBody(self):
        body = []
#        with open(self.out_file, "a") as hf:
            # bet == base_enum_type, fet == final_enum_type
        for bet in self.et_dict:
            fet = self.tf_dict[bet]
            body.append("static const char* string_%s(%s input_value)\n{\n    switch ((%s)input_value)\n    {\n" % (fet, fet, fet))
            for e in sorted(self.et_dict[bet]):
                if (self.ev_dict[e]['unique']):
                    body.append('    case %s:\n        return "%s";\n' % (e, e))
            body.append('    }\n    return "Unhandled %s";\n}\n\n' % fet)
        return "\n".join(body)
    
    def _generateSHHeader(self):
        return "#pragma once\n\n#include <%s>\n\n" % self.in_file
        

class CMakeGen:
    def __init__(self, struct_wrapper=None, out_dir=None):
        self.sw = struct_wrapper
        self.add_lib_file_list = self.sw.get_file_list()
        self.out_dir = out_dir
        self.out_file = os.path.join(self.out_dir, "CMakeLists.txt")
        self.cmg = CommonFileGen(self.out_file)
        
    def generate(self):
        self.cmg.setBody(self._generateBody())
        self.cmg.generate()
        
    def _generateBody(self):
        body = []
        body.append("project(%s)" % os.path.basename(self.out_dir))
        body.append("cmake_minimum_required(VERSION 2.8)\n")
        body.append("add_library(${PROJECT_NAME} %s)\n" % " ".join(self.add_lib_file_list))
        body.append('set(COMPILE_FLAGS "-fpermissive")')
        body.append('set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${COMPILE_FLAGS}")\n')
        body.append("include_directories(${SRC_DIR}/thirdparty/${GEN_API}/inc/)\n")
        body.append("target_include_directories (%s PUBLIC ${CMAKE_CURRENT_SOURCE_DIR})\n" % os.path.basename(self.out_dir))
        return "\n".join(body)

class GraphVizGen:
    def __init__(self, struct_dict=None):
        self.struc_dict = struct_dict
        self.out_file = os.path.join(os.getcwd(), "struct_gv.dot")
        self.gvg = CommonFileGen(self.out_file)
        
    def generate(self):
        self.gvg.setHeader(self._generateHeader())
        self.gvg.setBody(self._generateBody())
        self.gvg.setFooter('}')
        self.gvg.generate()
        
    def _generateHeader(self):
        hdr = []
        hdr.append('digraph g {\ngraph [\nrankdir = "LR"\n];')
        hdr.append('node [\nfontsize = "16"\nshape = "plaintext"\n];')
        hdr.append('edge [\n];\n')
        return "\n".join(hdr)
        
    def _generateBody(self):
        body = []
        for s in self.struc_dict:
            field_num = 1
            body.append('"%s" [\nlabel = <<TABLE BORDER="0" CELLBORDER="1" CELLSPACING="0"> <TR><TD COLSPAN="2" PORT="f0">%s</TD></TR>' % (s, typedef_fwd_dict[s]))
            for m in sorted(self.struc_dict[s]):
                body.append('<TR><TD PORT="f%i">%s</TD><TD PORT="f%i">%s</TD></TR>' % (field_num, self.struc_dict[s][m]['full_type'], field_num+1, self.struc_dict[s][m]['name']))
                field_num += 2
            body.append('</TABLE>>\n];\n')
        return "".join(body)
                

def main(argv=None):
    opts = handle_args()
    # Parse input file and fill out global dicts
    hfp = HeaderFileParser(opts.input_file)
    hfp.parse()
    # TODO : Don't want these to be global, see note at top about wrapper classes
    global enum_val_dict
    global enum_type_dict
    global struct_dict
    global typedef_fwd_dict
    global typedef_rev_dict
    global types_dict
    enum_val_dict = hfp.get_enum_val_dict()
    enum_type_dict = hfp.get_enum_type_dict()
    struct_dict = hfp.get_struct_dict()
    typedef_fwd_dict = hfp.get_typedef_fwd_dict()
    typedef_rev_dict = hfp.get_typedef_rev_dict()
    types_dict = hfp.get_types_dict()
    #print(enum_val_dict)
    #print(typedef_dict)
    #print(struct_dict)
    if (opts.abs_out_dir is not None):
        enum_filename = os.path.join(opts.abs_out_dir, os.path.basename(opts.input_file).strip(".h")+"_string_helper.h")
    else:
        enum_filename = os.path.join(os.getcwd(), opts.rel_out_dir, os.path.basename(opts.input_file).strip(".h")+"_string_helper.h")
    enum_filename = os.path.abspath(enum_filename)
    if not os.path.exists(os.path.dirname(enum_filename)):
        print("Creating output dir %s" % os.path.dirname(enum_filename))
        os.mkdir(os.path.dirname(enum_filename))
    print("Generating enum string helper to %s" % enum_filename)
    eg = EnumCodeGen(enum_type_dict, enum_val_dict, typedef_fwd_dict, os.path.basename(opts.input_file), enum_filename)
    eg.generateStringHelper()
    #for struct in struct_dict:
    #print(struct)
    sw = StructWrapperGen(struct_dict, os.path.basename(opts.input_file).strip(".h"), os.path.dirname(enum_filename))
    #print(sw.get_class_name(struct))
    sw.set_include_headers([os.path.basename(opts.input_file),os.path.basename(enum_filename),"stdint.h","stdio.h","stdlib.h"])
    print("Generating struct wrapper header to %s" % sw.header_filename)
    sw.generateHeader()
    print("Generating struct wrapper class to %s" % sw.class_filename)
    sw.generateBody()
    sw.generateStringHelper()
    cmg = CMakeGen(sw, os.path.dirname(enum_filename))
    cmg.generate()
    print("DONE! Check out the file, but we're still early so assume something's probably not quite right. :)")
    gv = GraphVizGen(struct_dict)
    gv.generate()
    #print(typedef_rev_dict)
    #print(types_dict)
    #recreate_structs()

if __name__ == "__main__":
    sys.exit(main())
    
    
## Example class for GR_APPLICATION_INFO struct
##include <mantle.h>    
#    
#class gr_application_info_struct_wrapper {
#public:
#    // Constructors
#    gr_application_info_struct_wrapper();
#    gr_application_info_struct_wrapper(GR_APPLICATION_INFO* pInStruct);
#    // Destructor
#    virtual ~gr_application_info_struct_wrapper();
#    
#    void display_txt()
#    // get functions    
#    // set functions for every non-const struct member
#        
#private:
#    GR_APPLICATION_INFO m_struct;
#};
#
#gr_application_info_struct_wrapper::gr_application_info_struct_wrapper() : m_struct() {}
#
#// Output struct address on single line
#gr_application_info_struct_wrapper::display_single_txt()
#{
#    printf(" GR_APPLICATION_INFO = %p", &m_struct);
#}
#// Output struct in txt format
#gr_application_info_struct_wrapper::display_txt()
#{
#    printf("GR_APPLICATION_INFO struct contents:\n");
#    printf("    pAppName: %s\n", m_struct.pAppName);
#    printf("    appVersion: %i\n", m_struct.appVersion);
#    printf("    pEngineNmae: %s\n", m_struct.pEngineName);
#    printf("    engineVersion: %i\n", m_struct.engineVersion);
#    printf("    apiVersion: %i\n", m_struct.apiVersion);
#}
#// Output struct including detailed info on pointed-to structs
#gr_application_info_struct_wrapper::display_full_txt()
#{
#    
#    printf("%*s%GR_APPLICATION_INFO struct contents:\n", indent, "");
#    printf("    pAppName: %s\n", m_struct.pAppName);
#    printf("    appVersion: %i\n", m_struct.appVersion);
#    printf("    pEngineNmae: %s\n", m_struct.pEngineName);
#    printf("    engineVersion: %i\n", m_struct.engineVersion);
#    printf("    apiVersion: %i\n", m_struct.apiVersion);
#}


# Example of helper function to pretty-print enum info
#static const char* string_GR_RESULT_CODE(GR_RESULT result)
#{
#    switch ((GR_RESULT_CODE)result)
#    {
#    // Return codes for successful operation execution
#    case GR_SUCCESS:
#        return "GR_SUCCESS";
#    case GR_UNSUPPORTED:
#        return "GR_UNSUPPORTED";
#    case GR_NOT_READY:
#        return "GR_NOT_READY";
#    case GR_TIMEOUT:
#        return "GR_TIMEOUT";
#    }
#    return "Unhandled GR_RESULT_CODE";
#}

# Dynamic print function
# void dynamic_display_full_txt(XGL_STRUCTURE_TYPE sType, void* pStruct, uint32_t indent)
# {
#     switch (sType)
#     {
#         case XGL_STRUCTURE_TYPE_COLOR_BLEND_STATE_CREATE_INFO:
#             xgl_color_blend_state_create_info_struct_wrapper swc((XGL_COLOR_BLEND_STATE_CREATE_INFO*)pStruct);
#             swc.set_indent(indent);
#             swc.display_full_txt();
#     }
# }