blob: bb70400c91b7df9c511cd0ad835a3225feadcf32 [file] [log] [blame]
// console.cpp - GUIConsole object
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <fcntl.h>
#include <sys/reboot.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/ioctl.h>
#include <time.h>
#include <unistd.h>
#include <stdlib.h>
#include <string>
extern "C" {
#include "../twcommon.h"
#include "../minuitwrp/minui.h"
}
#include "rapidxml.hpp"
#include "objects.hpp"
static std::vector<std::string> gConsole;
static std::vector<std::string> gConsoleColor;
static FILE* ors_file;
extern "C" void __gui_print(const char *color, char *buf)
{
char *start, *next;
if (buf[0] == '\n' && strlen(buf) < 2) {
// This prevents the double lines bug seen in the console during zip installs
return;
}
for (start = next = buf; *next != '\0';)
{
if (*next == '\n')
{
*next = '\0';
gConsole.push_back(start);
gConsoleColor.push_back(color);
start = ++next;
}
else
++next;
}
// The text after last \n (or whole string if there is no \n)
if(*start) {
gConsole.push_back(start);
gConsoleColor.push_back(color);
}
if (ors_file) {
fprintf(ors_file, "%s\n", buf);
fflush(ors_file);
}
}
extern "C" void gui_print(const char *fmt, ...)
{
char buf[512]; // We're going to limit a single request to 512 bytes
va_list ap;
va_start(ap, fmt);
vsnprintf(buf, 512, fmt, ap);
va_end(ap);
fputs(buf, stdout);
__gui_print("normal", buf);
return;
}
extern "C" void gui_print_color(const char *color, const char *fmt, ...)
{
char buf[512]; // We're going to limit a single request to 512 bytes
va_list ap;
va_start(ap, fmt);
vsnprintf(buf, 512, fmt, ap);
va_end(ap);
fputs(buf, stdout);
__gui_print(color, buf);
return;
}
extern "C" void gui_set_FILE(FILE* f)
{
ors_file = f;
}
GUIConsole::GUIConsole(xml_node<>* node) : GUIObject(node)
{
xml_attribute<>* attr;
xml_node<>* child;
mFont = NULL;
mCurrentLine = -1;
memset(&mForegroundColor, 255, sizeof(COLOR));
memset(&mBackgroundColor, 0, sizeof(COLOR));
mBackgroundColor.alpha = 255;
memset(&mScrollColor, 0x08, sizeof(COLOR));
mScrollColor.alpha = 255;
mLastCount = 0;
mSlideout = 0;
RenderCount = 0;
mSlideoutState = hidden;
mRender = true;
mRenderX = 0; mRenderY = 0; mRenderW = gr_fb_width(); mRenderH = gr_fb_height();
if (!node)
{
mSlideoutX = 0; mSlideoutY = 0; mSlideoutW = 0; mSlideoutH = 0;
mConsoleX = 0; mConsoleY = 0; mConsoleW = gr_fb_width(); mConsoleH = gr_fb_height();
}
else
{
child = node->first_node("font");
if (child)
{
mFont = LoadAttrFont(child, "resource");
}
child = node->first_node("color");
if (child)
{
mForegroundColor = LoadAttrColor(child, "foreground", mForegroundColor);
mBackgroundColor = LoadAttrColor(child, "background", mBackgroundColor);
mScrollColor = LoadAttrColor(child, "scroll", mScrollColor);
}
// Load the placement
LoadPlacement(node->first_node("placement"), &mConsoleX, &mConsoleY, &mConsoleW, &mConsoleH);
child = node->first_node("slideout");
if (child)
{
mSlideout = 1;
LoadPlacement(child, &mSlideoutX, &mSlideoutY);
mSlideoutImage = LoadAttrImage(child, "resource");
if (mSlideoutImage && mSlideoutImage->GetResource())
{
mSlideoutW = mSlideoutImage->GetWidth();
mSlideoutH = mSlideoutImage->GetHeight();
}
}
}
mFontHeight = mFont->GetHeight();
SetActionPos(mRenderX, mRenderY, mRenderW, mRenderH);
SetRenderPos(mConsoleX, mConsoleY);
}
int GUIConsole::RenderSlideout(void)
{
if (!mSlideoutImage || !mSlideoutImage->GetResource())
return -1;
gr_blit(mSlideoutImage->GetResource(), 0, 0, mSlideoutW, mSlideoutH, mSlideoutX, mSlideoutY);
return 0;
}
int GUIConsole::RenderConsole(void)
{
void* fontResource = NULL;
if (mFont)
fontResource = mFont->GetResource();
// We fill the background
gr_color(mBackgroundColor.red, mBackgroundColor.green, mBackgroundColor.blue, 255);
gr_fill(mConsoleX, mConsoleY, mConsoleW, mConsoleH);
gr_color(mScrollColor.red, mScrollColor.green, mScrollColor.blue, mScrollColor.alpha);
gr_fill(mConsoleX + (mConsoleW * 9 / 10), mConsoleY, (mConsoleW / 10), mConsoleH);
// Don't try to continue to render without data
size_t prevCount = mLastCount;
mLastCount = gConsole.size();
mRender = false;
if (mLastCount == 0)
return (mSlideout ? RenderSlideout() : 0);
// Due to word wrap, figure out what / how the newly added text needs to be added to the render vector that is word wrapped
// Note, that multiple consoles on different GUI pages may be different widths or use different fonts, so the word wrapping
// may different in different console windows
for (size_t i = prevCount; i < mLastCount; i++) {
string curr_line = gConsole[i];
string curr_color = gConsoleColor[i];
for(;;) {
size_t line_char_width = gr_maxExW(curr_line.c_str(), fontResource, mConsoleW);
if (line_char_width < curr_line.size()) {
rConsole.push_back(curr_line.substr(0, line_char_width));
rConsoleColor.push_back(curr_color);
curr_line = curr_line.substr(line_char_width);
} else {
rConsole.push_back(curr_line);
rConsoleColor.push_back(curr_color);
break;
}
}
}
RenderCount = rConsole.size();
// Find the start point
int start;
int curLine = mCurrentLine; // Thread-safing (Another thread updates this value)
if (curLine == -1) // follow tail
{
start = RenderCount - mMaxRows;
}
else
{
if (curLine > (int) RenderCount)
curLine = (int) RenderCount;
if ((int) mMaxRows > curLine)
curLine = (int) mMaxRows;
start = curLine - mMaxRows;
}
// note: start can be negative here
for (int line = 0; line < mMaxRows; line++)
{
int index = start + line;
if (index >= 0 && index < (int) RenderCount) {
if (rConsoleColor[index] == "normal") {
gr_color(mForegroundColor.red, mForegroundColor.green, mForegroundColor.blue, mForegroundColor.alpha);
} else {
COLOR mFontColor;
std::string color = rConsoleColor[index];
ConvertStrToColor(color, &mFontColor);
mFontColor.alpha = 255;
gr_color(mFontColor.red, mFontColor.green, mFontColor.blue, mFontColor.alpha);
}
gr_textExW(mConsoleX, mStartY + (line * mFontHeight), rConsole[index].c_str(), fontResource, mConsoleW + mConsoleX);
}
}
return (mSlideout ? RenderSlideout() : 0);
}
int GUIConsole::Render(void)
{
if(!isConditionTrue())
return 0;
if (mSlideout && mSlideoutState == hidden)
return RenderSlideout();
return RenderConsole();
}
int GUIConsole::Update(void)
{
if(!isConditionTrue())
return 0;
if (mSlideout && mSlideoutState != visible)
{
if (mSlideoutState == hidden)
return 0;
if (mSlideoutState == request_hide)
mSlideoutState = hidden;
if (mSlideoutState == request_show)
mSlideoutState = visible;
// Any time we activate the slider, we reset the position
mCurrentLine = -1;
return 2;
}
if (mCurrentLine == -1 && mLastCount != gConsole.size())
{
// We can use Render, and return for just a flip
Render();
return 2;
}
else if (mRender)
{
// They're still touching, so re-render
Render();
return 2;
}
return 0;
}
int GUIConsole::SetRenderPos(int x, int y, int w, int h)
{
// Adjust the stub position accordingly
mSlideoutX += (x - mConsoleX);
mSlideoutY += (y - mConsoleY);
mConsoleX = x;
mConsoleY = y;
if (w || h)
{
mConsoleW = w;
mConsoleH = h;
}
// Calculate the max rows
mMaxRows = mConsoleH / mFontHeight;
// Adjust so we always fit to bottom
mStartY = mConsoleY + (mConsoleH % mFontHeight);
return 0;
}
// IsInRegion - Checks if the request is handled by this object
// Return 1 if this object handles the request, 0 if not
int GUIConsole::IsInRegion(int x, int y)
{
if (mSlideout)
{
// Check if they tapped the slideout button
if (x >= mSlideoutX && x <= mSlideoutX + mSlideoutW && y >= mSlideoutY && y < mSlideoutY + mSlideoutH)
return 1;
// If we're only rendering the slideout, bail now
if (mSlideoutState == hidden)
return 0;
}
return (x < mConsoleX || x >= mConsoleX + mConsoleW || y < mConsoleY || y >= mConsoleY + mConsoleH) ? 0 : 1;
}
// NotifyTouch - Notify of a touch event
// Return 0 on success, >0 to ignore remainder of touch, and <0 on error
int GUIConsole::NotifyTouch(TOUCH_STATE state, int x, int y)
{
if(!isConditionTrue())
return -1;
if (mSlideout && mSlideoutState == hidden)
{
if (state == TOUCH_START)
{
mSlideoutState = request_show;
return 1;
}
}
else if (mSlideout && mSlideoutState == visible)
{
// Are we sliding it back in?
if (state == TOUCH_START && x > mSlideoutX && x < (mSlideoutX + mSlideoutW) && y > mSlideoutY && y < (mSlideoutY + mSlideoutH))
{
mSlideoutState = request_hide;
return 1;
}
}
// If we don't have enough lines to scroll, throw this away.
if ((int)RenderCount < mMaxRows) return 1;
// We are scrolling!!!
switch (state)
{
case TOUCH_START:
mLastTouchX = x;
mLastTouchY = y;
break;
case TOUCH_DRAG:
if (x < mConsoleX || x > mConsoleX + mConsoleW || y < mConsoleY || y > mConsoleY + mConsoleH)
break; // touch is outside of the console area -- do nothing
if (y > mLastTouchY + mFontHeight) {
while (y > mLastTouchY + mFontHeight) {
if (mCurrentLine == -1)
mCurrentLine = RenderCount - 1;
else if (mCurrentLine > mMaxRows)
mCurrentLine--;
mLastTouchY += mFontHeight;
}
mRender = true;
} else if (y < mLastTouchY - mFontHeight) {
while (y < mLastTouchY - mFontHeight) {
if (mCurrentLine >= 0)
mCurrentLine++;
mLastTouchY -= mFontHeight;
}
if (mCurrentLine >= (int) RenderCount)
mCurrentLine = -1;
mRender = true;
}
break;
case TOUCH_RELEASE:
mLastTouchY = -1;
case TOUCH_REPEAT:
case TOUCH_HOLD:
break;
}
return 0;
}