coffee_crisis_arcade_edition/source/text.cpp

#include "text.h"
#include <SDL2/SDL_blendmode.h> // for SDL_BLENDMODE_BLEND
#include <SDL2/SDL_pixels.h>	// for SDL_PIXELFORMAT_RGBA8888
#include <SDL2/SDL_rect.h>		// for SDL_Rect
#include <SDL2/SDL_render.h>	// for SDL_TEXTUREACCESS_TARGET
#include <stddef.h>				// for size_t
#include <fstream>				// for basic_ifstream, basic_istream, basic...
#include <iostream>				// for cerr
#include <stdexcept>			// for runtime_error
#include "screen.h"				// for Screen
#include "sprite.h"				// for Sprite
#include "texture.h"			// for Texture
#include "utils.h"				// for Color, getFileName, printWithDots

// Llena una estructuta TextFile desde un fichero
std::shared_ptr<TextFile> loadTextFile(const std::string &file_path)
{
	auto tf = std::make_shared<TextFile>();

	// Inicializa a cero el vector con las coordenadas
	for (int i = 0; i < 128; ++i)
	{
		tf->offset[i].x = 0;
		tf->offset[i].y = 0;
		tf->offset[i].w = 0;
		tf->box_width = 0;
		tf->box_height = 0;
	}

	// Abre el fichero para leer los valores
	std::ifstream file(file_path);

	if (file.is_open() && file.good())
	{
		std::string buffer;

		// Lee los dos primeros valores del fichero
		std::getline(file, buffer);
		std::getline(file, buffer);
		tf->box_width = std::stoi(buffer);

		std::getline(file, buffer);
		std::getline(file, buffer);
		tf->box_height = std::stoi(buffer);

		// lee el resto de datos del fichero
		auto index = 32;
		auto line_read = 0;
		while (std::getline(file, buffer))
		{
			// Almacena solo las lineas impares
			if (line_read % 2 == 1)
				tf->offset[index++].w = std::stoi(buffer);

			// Limpia el buffer
			buffer.clear();
			line_read++;
		};

		// Cierra el fichero
		printWithDots("Text File : ", getFileName(file_path), "[ LOADED ]");
		file.close();
	}

	// El fichero no se puede abrir
	else
	{
		std::cerr << "Error: Fichero no encontrado " << getFileName(file_path) << std::endl;
		throw std::runtime_error("Fichero no encontrado: " + getFileName(file_path));
	}

	// Establece las coordenadas para cada caracter ascii de la cadena y su ancho
	for (int i = 32; i < 128; ++i)
	{
		tf->offset[i].x = ((i - 32) % 15) * tf->box_width;
		tf->offset[i].y = ((i - 32) / 15) * tf->box_height;
	}

	return tf;
}

// Constructor
Text::Text(std::shared_ptr<Texture> texture, const std::string &text_file)
{
	// Carga los offsets desde el fichero
	auto tf = loadTextFile(text_file);

	// Inicializa variables desde la estructura
	box_height_ = tf->box_height;
	box_width_ = tf->box_width;
	for (int i = 0; i < 128; ++i)
	{
		offset_[i].x = tf->offset[i].x;
		offset_[i].y = tf->offset[i].y;
		offset_[i].w = tf->offset[i].w;
	}

	// Crea los objetos
	sprite_ = std::make_unique<Sprite>(texture, (SDL_Rect){0, 0, box_width_, box_height_});

	// Inicializa variables
	fixed_width_ = false;
}

// Constructor
Text::Text(std::shared_ptr<Texture> texture, std::shared_ptr<TextFile> text_file)
{
	// Inicializa variables desde la estructura
	box_height_ = text_file->box_height;
	box_width_ = text_file->box_width;
	for (int i = 0; i < 128; ++i)
	{
		offset_[i].x = text_file->offset[i].x;
		offset_[i].y = text_file->offset[i].y;
		offset_[i].w = text_file->offset[i].w;
	}

	// Crea los objetos
	sprite_ = std::make_unique<Sprite>(texture, (SDL_Rect){0, 0, box_width_, box_height_});

	// Inicializa variables
	fixed_width_ = false;
}

// Escribe texto en pantalla
void Text::write(int x, int y, const std::string &text, int kerning, int lenght)
{
	int shift = 0;

	if (lenght == -1)
		lenght = text.length();

	sprite_->setY(y);
	for (int i = 0; i < lenght; ++i)
	{
		auto index = static_cast<int>(text[i]);
		sprite_->setSpriteClip(offset_[index].x, offset_[index].y, box_width_, box_height_);
		sprite_->setX(x + shift);
		sprite_->render();
		shift += offset_[static_cast<int>(text[i])].w + kerning;
	}
}

// Escribe texto en pantalla
void Text::write2X(int x, int y, const std::string &text, int kerning)
{
	int shift = 0;
	for (size_t i = 0; i < text.length(); ++i)
	{
		auto index = static_cast<size_t>(text[i]);
		SDL_Rect rect = {offset_[index].x, offset_[index].y, box_width_, box_height_};
		sprite_->getTexture()->render(x + shift, y, &rect, 2.0f, 2.0f);
		shift += (offset_[index].w + kerning) * 2;
	}
}

// Escribe el texto en una textura
std::shared_ptr<Texture> Text::writeToTexture(const std::string &text, int zoom, int kerning)
{
	auto renderer = Screen::get()->getRenderer();
	auto texture = std::make_shared<Texture>(renderer);
	auto width = lenght(text, kerning) * zoom;
	auto height = box_height_ * zoom;
	texture->createBlank(width, height, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET);
	texture->setBlendMode(SDL_BLENDMODE_BLEND);
	texture->setAsRenderTarget(renderer);
	zoom == 1 ? write(0, 0, text, kerning) : write2X(0, 0, text, kerning);

	return texture;
}

// Escribe el texto con colores
void Text::writeColored(int x, int y, const std::string &text, Color color, int kerning, int lenght)
{
	sprite_->getTexture()->setColor(color.r, color.g, color.b);
	write(x, y, text, kerning, lenght);
	sprite_->getTexture()->setColor(255, 255, 255);
}

// Escribe el texto con sombra
void Text::writeShadowed(int x, int y, const std::string &text, Color color, Uint8 shadow_distance, int kerning, int lenght)
{
	sprite_->getTexture()->setColor(color.r, color.g, color.b);
	write(x + shadow_distance, y + shadow_distance, text, kerning, lenght);
	sprite_->getTexture()->setColor(255, 255, 255);
	write(x, y, text, kerning, lenght);
}

// Escribe el texto centrado en un punto x
void Text::writeCentered(int x, int y, const std::string &text, int kerning, int lenght)
{
	x -= (Text::lenght(text, kerning) / 2);
	write(x, y, text, kerning, lenght);
}

// Escribe texto con extras
void Text::writeDX(Uint8 flags, int x, int y, const std::string &text, int kerning, Color textColor, Uint8 shadow_distance, Color shadow_color, int lenght)
{
	const auto centered = ((flags & TEXT_CENTER) == TEXT_CENTER);
	const auto shadowed = ((flags & TEXT_SHADOW) == TEXT_SHADOW);
	const auto colored = ((flags & TEXT_COLOR) == TEXT_COLOR);
	const auto stroked = ((flags & TEXT_STROKE) == TEXT_STROKE);

	if (centered)
	{
		x -= (Text::lenght(text, kerning) / 2);
	}

	if (shadowed)
	{
		writeColored(x + shadow_distance, y + shadow_distance, text, shadow_color, kerning, lenght);
	}

	if (stroked)
	{
		for (int dist = 1; dist <= shadow_distance; ++dist)
		{
			for (int dy = -dist; dy <= dist; ++dy)
			{
				for (int dx = -dist; dx <= dist; ++dx)
				{
					writeColored(x + dx, y + dy, text, shadow_color, kerning, lenght);
				}
			}
		}
	}

	if (colored)
	{
		writeColored(x, y, text, textColor, kerning, lenght);
	}
	else
	{
		write(x, y, text, kerning, lenght);
	}
}

// Obtiene la longitud en pixels de una cadena
int Text::lenght(const std::string &text, int kerning) const
{
	int shift = 0;
	for (size_t i = 0; i < text.length(); ++i)
		shift += (offset_[static_cast<int>(text[i])].w + kerning);

	// Descuenta el kerning del último caracter
	return shift - kerning;
}

// Devuelve el valor de la variable
int Text::getCharacterSize() const
{
	return box_width_;
}

// Recarga la textura
void Text::reLoadTexture()
{
	sprite_->getTexture()->reLoad();
}

// Establece si se usa un tamaño fijo de letra
void Text::setFixedWidth(bool value)
{
	fixed_width_ = value;
}