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Delphi GUI Programming with FireMonkey

By : Magni

4.1 (15)

Delphi GUI Programming with FireMonkey

4.1 (15)

By: Magni

Overview of this book

FireMonkey (FMX) is a cross-platform application framework that allows developers to create exciting user interfaces and deliver applications on multiple operating systems (OS). This book will help you learn visual programming with Delphi and FMX. Starting with an overview of the FMX framework, including a general discussion of the underlying philosophy and approach, you’ll then move on to the fundamentals and architectural details of FMX. You’ll also cover a significant comparison between Delphi and the Visual Component Library (VCL). Next, you’ll focus on the main FMX components, data access/data binding, and style concepts, in addition to understanding how to deliver visually responsive UIs. To address modern application development, the book takes you through topics such as animations and effects, and provides you with a general introduction to parallel programming, specifically targeting UI-related aspects, including application responsiveness. Later, you’ll explore the most important cross-platform services in the FMX framework, which are essential for delivering your application on multiple platforms while retaining the single codebase approach. Finally, you’ll learn about FMX’s built-in 3D functionalities. By the end of this book, you’ll be familiar with the FMX framework and be able to build effective cross-platform apps.

Preface

Preface

Who this book is for

What this book covers

To get the most out of this book

Download the example code files

Download the color images

Conventions used

Get in touch

Reviews

Section 1: Delphi GUI Programming Frameworks

Section 1: Delphi GUI Programming Frameworks

Free Chapter

Introducing the FireMonkey Framework

Introducing the FireMonkey Framework

Technical requirements

Approaching FireMonkey

Abstracting the visual part of your apps

Looking beyond the UI

Back to the metal

Understanding the strengths and weaknesses

Summary

Exploring Similarities and Differences with VCL

Exploring Similarities and Differences with VCL

Technical requirements

Understanding RTL for everyone

Learning about component streaming

Understanding the Style Designer

Learning about components

Handling the placement and sizing of components

Understanding anchors

Learning about alignments

Understanding actions

Learning about data binding

Summary

Section 2: The FMX Framework in Depth

Section 2: The FMX Framework in Depth

Mastering Basic Components

Mastering Basic Components

Technical requirements

Understanding the TText component

Learning about the TLabel component

Understanding shapes

Learning about the TLine class

Understanding the TRectangle class

Learning about the TCircle component

Managing images effectively

Learning about the MultiResBitmaps unit

TImage

TImageViewer

TImageList

TGlyph

Learning about buttons

TSpeedButton

Summary

Discovering Lists and Advanced Components

Discovering Lists and Advanced Components

Technical requirements

Learning about lists

TListBox

TListView

Providing data for the list

Item appearances

Custom appearance

Dynamic appearance

TListView's style customization

Basic event handling

Search capabilities

Pull to refresh

Exploring treeviews

Customizing TTreeview's items

Using grids

TGrid and TStringGrid

Customizing TGrid and TStringGrid

Mastering drawers and panels

Drawer mode

NavigationPane mode

Panel mode

Popover mode

PlatformBehavior mode

Custom mode

Summary

Using FireDAC in FMX Applications

Using FireDAC in FMX Applications

Technical requirements

Learning about the FireDAC library

Understanding the library's composition

Understanding the options system

Exploring FetchOptions properties

Exploring FormatOptions properties

Exploring ResourceOptions properties

Exploring UpdateOptions properties

Working with macros and parameters

Taking advantage of memory tables

Connecting to a database

Introducing Tables, Query, StoredProc, and Command

Understanding dataset persistence

Implementing an onboard database

Exploring the LocalSQL feature

Summary

Implementing Data Binding

Implementing Data Binding

Technical requirements

Introduction to data binding

Approaching LiveBindings

Introducing managed bindings

Understanding what happens under the hood

Mastering real-world data bindings

Introducing BindSources

Binding a field value to a property – TLinkPropertyToField

Binding a dataset field value to a control – TLinkControlToField

Formatting data

Exploring CustomFormat/CustomParse expressions

Understanding LiveBindings methods

Creating the package (FormatFloatPackage)

Implementing the wrapper (FormatFloatInvokable)

Building and installing the package

Testing at design time and using it at runtime

Making custom method calls available

Binding a dataset to a list control – TLinkListControlToField

Filling items with data

Associating images with data

LiveBindings events

Binding a dataset to a grid control – TLinkGridToDataSource

Summary

Understanding FMX Style Concept

Understanding FMX Style Concept

Technical requirements

Learning about multi-platform visual programming

Introducing the Style concept

Understanding the anatomy of a style

Managing style(s) in the IDE

Binding a component to its style

Exploring the style definition of a component

Approaching the TStyleBook component

Learning about Vector styles

Understanding Bitmap styles

Adding animation, triggers, and effects

Managing styles – the TStyleManager component

Understanding the selection algorithm

Loading a style from embedded resources

Learning about platform-native controls

Summary

Divide and Conquer with TFrameStand

Divide and Conquer with TFrameStand

Technical requirements

Introducing TFrameStand

Designing UIs for mobile applications

Learning about the DRY principle

Understanding visual continuity

Exploring TFrameStand – Hello, World!

Implementing views

Understanding the THomeFrame frame

Learning about the TOrdersFrame frame

Understanding the TOrderDetailsFrame frame

Defining the stand(s)

Learning about animations

Defining the fader stand

Defining the slider stand

Learning about TFormStand

Summary

Building Responsive UIs

Building Responsive UIs

Technical requirements

Understanding responsiveness—visual meaning

Exploring Bootstrap's grid system

Understanding the relevant factors of responsiveness

Leveraging device and application peculiarities

Handling changes in device orientation

Considering the field of application

Understanding screen resolution and density

Building visual layouts

Arranging components with TLayout

Letting components flow as text with TFlowLayout

Building grid layouts with TGridLayout

Advanced arrangements with TGridPanelLayout

Introducing FireUI technology

Creating a new view

The Multi-Device Preview window

Using the FireUI Live Preview app

Considering other FireUI capabilities

Exploring TFormStand

Summary

Orchestrating Transitions and Animations

Orchestrating Transitions and Animations

Technical requirements

Introducing animations and transitions

Learning about interpolation

Understanding non-linear interpolations

Working with the FMXAni demo project

Learning about the TAnimation class

Understanding global animation management

Understanding interpolation modifier functions

Learning about TAnimator shortcuts

Learning about specialized animation components

TFloatAnimation

TFloatKeyAnimation

TColorAnimation

TColorKeyAnimation

TGradientAnimation

TRectAnimation

TBitmapAnimation

TBitmapListAnimation

TPathAnimation

Summary

Section 3: Pushing to The Top: Advanced Topics

Section 3: Pushing to The Top: Advanced Topics

Building Responsive Applications

Building Responsive Applications

Technical requirements

Understanding multithreading

Understanding the thread safety of UI frameworks

Synchronous versus asynchronous execution

Utilizing the Synchronize method

Learning about the Queue approach

Exploring threads and tasks

Introducing the TThread class

Understanding a thread's lifespan

Exploring alternative solutions

Introducing the Parallel Programming Library

Introducing the TTask class

Dealing with synchronization

Waiting for a task to complete

Waiting for tasks to finish

Learning about futures

Summary

Further reading

Exploring Cross-Platform Services

Exploring Cross-Platform Services

Technical requirements

Accessing the clipboard service

Understanding copying and pasting text

Learning about copying and pasting graphic content

Managing dialog forms

Understanding differences between synchronous versus asynchronous modes

Leveraging touch capabilities

Playing with the form's OnTouch event

Considering the form's OnTap event

Exploring standard gestures

Implementing interactive gestures

Understanding messaging support

Introducing message definitions as data types

Sending messages through the message manager

Subscribing and responding to messages

Using native HTTP client implementations

Getting familiar with Bluetooth support

Scanning for devices

Connecting to a BLE device

Subscribing for notifications

Summary

Learning about FMX 3D Capabilities

Learning about FMX 3D Capabilities

Technical requirements

Introducing 3D programming with FMX

Building a 3D application

Building a 3D "Hello, world!" application

Understanding TDummy and the design-time camera

Setting up a 3D viewport

Understanding lights and materials

Learning about lights

Learning about the materials

Merging 3D and 2D visual objects

Using the TLayer3D component

Merging TFrameStand with 3D visuals

Summary

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Understanding non-linear interpolations

Given that interpolation occurs when you want to move from value A to value B, there are infinite ways to cover the path from A to B. In fact, some visual effects are implemented through non-linear animations. A number of real-world experiences are tied to quadratic equations – think about gravity or acceleration in general. Another huge set of cases are based on trigonometric functions such as sine and cosine – think about oscillations or springs.

A simple way to apply a modifier function to our interpolation is to transform its argument – time. We've already introduced the concept of normalized time over a duration period – N(t) – ranging from 0 to 1.

Now, think about what would happen if, instead of using a linearized interpolation of time, you substituted it with a non-linear one. The values of the interpolation will vary accordingly, without changing the interpolation...

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